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InstructorCourseTermEnrollEvals MadeRcmnd ClassRcmnd InstrStudy Hrs/wkAvg Grade ExpectedAvg Grade Received
Brydges, Stacey CHEM 1 - Scope of Chem and Biochem (A) WI2210 6 100.0% 100.0% 1.17 A (4.00) N/A
Slade, Jonathan CHEM 100A - Analytical Chemistry Lab (A) WI22152 76 92.0% 93.3% 8.69 B+ (3.41) B+ (3.41)
Pomeroy, Robert S. CHEM 100B - Instrumental Chemistry Lab (A) WI2229 11 72.7% 81.8% 11.23 B (3.18) B (3.09)
Pomeroy, Robert S. CHEM 100B - Instrumental Chemistry Lab (B) WI2211 4 100.0% 100.0% 10.50 C (2.00) N/A
Young, Mark CHEM 105A - Physical Chemistry Laboratory (A) WI2236 13 63.6% 90.9% 9.17 B+ (3.50) B (3.01)
Young, Mark CHEM 105A - Physical Chemistry Laboratory (B) WI2237 18 38.9% 83.3% 9.28 B- (2.89) B (3.23)
Hamaoka, Brent Y CHEM 108 - Protein Biochemistry Lab (A) WI2245 18 83.3% 94.4% 10.83 B (3.28) B+ (3.32)
Hamaoka, Brent Y CHEM 108 - Protein Biochemistry Lab (B) WI2225 11 100.0% 90.9% 12.68 B+ (3.36) B+ (3.67)
McHugh, Colleen A CHEM 109 - Recombinant DNA Laboratory (A) WI2250 29 89.7% 96.6% 9.33 A- (3.76) B+ (3.67)
McHugh, Colleen A CHEM 109 - Recombinant DNA Laboratory (B) WI2243 18 88.2% 94.1% 10.15 B+ (3.53) B+ (3.50)
Muller, Ulrich K. CHEM 114A - Biochemical Structure&Function (A) WI22158 69 80.9% 77.6% 6.82 B (3.22) B- (2.96)
Budin, Itay CHEM 114B - Biochem Energetics&Metabolism (A) WI22284 129 96.0% 98.4% 7.55 B (3.23) B (3.01)
Bodai, Zsolt CHEM 115 - Genome Editing (A) WI2222 13 84.6% 92.3% 9.27 B+ (3.54) B+ (3.52)
Huang, Xuemei CHEM 12 - Molecules and Reactions (A) WI2270 28 91.7% 95.8% 5.08 B (3.29) B (3.15)
Stauber, Julia Megan CHEM 120A - Inorganic Chemistry I (A) WI2247 36 91.7% 91.7% 6.39 B (3.06) C+ (2.32)
Tezcan, Faik CHEM 125 - Bioinorganic Chemistry (A) WI2214 7 100.0% 100.0% 5.93 B (3.00) N/A
Amaro, Rommie E CHEM 126A - Phys Biochem: Thermodynamics (A) WI22114 46 91.3% 95.7% 6.07 B+ (3.49) B (3.19)
Paesani, Francesco CHEM 126B - Phys Biochem: Quantum Mech (A) WI22187 89 67.0% 92.0% 6.84 B- (2.94) B- (2.76)
Galperin, Michael CHEM 131 - Chem Physics: Stat Thermo I (A) WI2293 47 74.5% 85.1% 8.33 C+ (2.57) C+ (2.59)
Pokorski, Jonathan Kyle CHEM 134 - Polymeric Materials (A) WI2218 8 100.0% 100.0% 7.07 A- (3.71) N/A
Weizman, Haim CHEM 143B - Organic Chemistry Lab II (A) WI22136 56 61.8% 65.5% 6.75 B- (2.96) B+ (3.41)
Burkart, Michael D CHEM 145 - Biofuels & Renewable Materials (A) WI2216 14 100.0% 100.0% 4.19 B (3.23) N/A
Donoghue, Daniel J. CHEM 151 - Molecules That Changed World (A) WI22102 36 100.0% 100.0% 4.04 A- (3.89) A- (3.84)
Tor, Yitzhak CHEM 154 - Mechanisms/Organic Reactions (B) WI2219 9 77.8% 100.0% 6.50 B+ (3.33) N/A
Devaraj, Neal Krishna CHEM 168 - Drug Synthesis and Design (A) WI22198 163 98.8% 98.8% 5.28 B+ (3.46) B+ (3.44)
Thiemens, Mark H CHEM 172 - Environmental Chemistry II (A) WI2281 25 100.0% 96.0% 3.25 B+ (3.54) B+ (3.33)
Brydges, Stacey CHEM 187 - Foundn of Teach&Learn Science (A) WI2212 6 100.0% 100.0% 4.50 A (4.00) N/A
Newsam, John CHEM 194 - Special Topics in Chemistry (A) WI228 8 100.0% 100.0% 2.75 A (4.00) N/A
Oconnor, Joseph M. CHEM 40A - Organic Chemistry I (A) WI22192 65 53.3% 58.3% 8.74 B- (2.71) C (2.28)
Oconnor, Joseph M. CHEM 40A - Organic Chemistry I (B) WI22216 88 40.7% 47.6% 7.99 C+ (2.59) C+ (2.57)
Romero, Erik Anthony CHEM 40B - Organic Chemistry II (A) WI22302 156 40.3% 37.2% 9.04 B- (2.76) C+ (2.70)
Klosterman, Jeremy K CHEM 40B - Organic Chemistry II (B) WI22323 299 58.6% 57.3% 9.93 B- (2.71) B- (2.74)
Molinski, Tadeusz CHEM 40B - Organic Chemistry II (C) WI22149 61 35.1% 21.1% 9.52 B- (2.85) C+ (2.43)
Weizman, Haim CHEM 40BH - Honors Organic Chemistry II (A) WI2277 44 92.9% 97.6% 7.96 B+ (3.44) B+ (3.67)
Godula, Kamil CHEM 40C - Organic Chemistry III (A) WI22205 181 85.6% 97.8% 6.53 B (3.29) B- (2.90)
Albizati, Kim F. CHEM 40C - Organic Chemistry III (B) WI2271 25 84.0% 100.0% 7.08 B (3.09) B- (2.75)
Ternansky, Robert J. CHEM 43A - Organic Chemistry Laboratory (A) WI22199 97 54.8% 44.1% 7.60 B- (2.84) B (3.24)
Ternansky, Robert J. CHEM 43A - Organic Chemistry Laboratory (B) WI22199 108 57.0% 41.5% 7.10 B- (2.72) B (3.25)
Tezcan, Faik CHEM 6A - General Chemistry I (A) WI22285 175 66.9% 58.0% 6.71 B- (2.75) C+ (2.50)
Jazzar, Rodolphe CHEM 6A - General Chemistry I (B) WI22304 149 93.0% 92.1% 6.21 B (3.28) B- (2.76)
Young, Mark CHEM 6B - General Chemistry II (A) WI22166 89 58.3% 51.2% 7.03 C+ (2.65) B- (2.72)
Lam, Tin Yiu CHEM 6B - General Chemistry II (B) WI22230 124 94.2% 87.3% 6.53 B+ (3.33) B (3.08)
Komor, Alexis C CHEM 6B - General Chemistry II (C) WI22270 226 94.2% 96.0% 6.58 B+ (3.50) B+ (3.43)
Lam, Tin Yiu CHEM 6B - General Chemistry II (D) WI22234 145 89.2% 86.2% 6.79 B+ (3.30) B (3.09)
Nesbit, Mark Allen CHEM 6B - General Chemistry II (E) WI22241 156 74.2% 69.3% 6.29 B (3.20) B+ (3.54)
Stallings, Dontarie M CHEM 6B - General Chemistry II (F) WI22238 208 97.1% 98.1% 6.32 B+ (3.51) B- (2.93)
Kummel, Andrew C CHEM 6B - General Chemistry II (G) WI22258 151 78.9% 79.6% 7.19 B (3.23) B- (2.90)
Paesani, Francesco CHEM 6BH - Honors General Chemistry II (A) WI2263 47 93.3% 100.0% 6.90 B+ (3.42) B+ (3.61)
Ghosh, Partho CHEM 6C - General Chemistry III (A) WI22240 105 82.5% 93.2% 6.33 B- (2.90) C (2.12)
Leigh, Brian CHEM 7L - General Chemistry Laboratory (A) WI22245 109 77.9% 86.5% 7.65 B (3.13) B (3.10)
Leigh, Brian CHEM 7L - General Chemistry Laboratory (B) WI22247 125 78.7% 85.2% 7.76 B (3.26) B (3.08)
Pomeroy, Robert S. CHEM 100A - Analytical Chemistry Lab (A) FA21153 81 93.4% 94.7% 8.50 B (3.09) B- (3.00)
Young, Mark CHEM 105A - Physical Chemistry Laboratory (A) FA2145 20 35.0% 60.0% 11.60 B (3.10) B (3.21)
Young, Mark CHEM 105A - Physical Chemistry Laboratory (B) FA2145 12 62.5% 71.4% 7.83 B- (2.78) B- (2.93)
Ghosh, Gourisankar CHEM 108 - Protein Biochemistry Lab (A) FA2146 18 88.2% 70.6% 7.68 B+ (3.41) B+ (3.53)
Ghosh, Gourisankar CHEM 108 - Protein Biochemistry Lab (B) FA2147 23 72.7% 71.4% 6.05 B+ (3.45) B+ (3.51)
Hamaoka, Brent Y CHEM 109 - Recombinant DNA Laboratory (A) FA2147 34 91.2% 91.2% 10.68 B+ (3.56) A- (3.73)
Hamaoka, Brent Y CHEM 109 - Recombinant DNA Laboratory (B) FA2145 16 100.0% 100.0% 11.03 B+ (3.53) B+ (3.52)
Wang, Wei CHEM 11 - The Periodic Table (A) FA21249 139 88.3% 82.1% 3.94 A- (3.73) B+ (3.62)
Mishanina, Tatiana V CHEM 113 - Biophysical Chem of Macromolec (A) FA2182 71 93.0% 100.0% 6.47 B+ (3.42) B+ (3.35)
Toor, Navtej CHEM 114A - Biochemical Structure&Function (A) FA21280 134 77.5% 72.1% 6.56 B (3.06) B (3.02)
Godula, Kamil CHEM 116 - Chemical Biology (A) FA2155 25 90.9% 95.5% 6.41 B (3.17) B+ (3.30)
Rinehart, Jeffrey Dennis CHEM 120A - Inorganic Chemistry I (A) FA21215 96 94.6% 94.6% 6.33 B+ (3.46) B- (2.95)
Yuen Zhou, Joel CHEM 126A - Phys Biochem: Thermodynamics (A) FA21182 115 55.9% 59.1% 9.10 B- (2.83) B- (2.85)
Sinha, Amitabha CHEM 130 - Chem Physics: Quantum Mech (A) FA21110 51 62.7% 56.0% 9.21 C+ (2.62) C+ (2.70)
Esko, Jeffrey D. CHEM 142 - Intro to Glycosciences (A) FA2143 19 82.4% 94.1% 6.85 B+ (3.41) A- (3.73)
Godula, Kamil CHEM 142 - Intro to Glycosciences (A) FA2143 19 82.4% 100.0% 6.85 B+ (3.41) A- (3.73)
Gordts, Philip CHEM 142 - Intro to Glycosciences (A) FA2143 19 82.4% 88.2% 6.85 B+ (3.41) A- (3.73)
Ternansky, Robert J. CHEM 143C - Organic Chemistry Laboratory (A) FA2177 27 92.0% 92.0% 7.30 B+ (3.38) B+ (3.30)
Theodorakis, Emmanuel CHEM 152 - Synthetic Methods/Organic Chem (A) FA2130 18 100.0% 100.0% 6.28 B+ (3.39) B+ (3.38)
Slade, Jonathan CHEM 171 - Environmental Chemistry I (A) FA21131 63 93.7% 93.7% 4.47 B+ (3.70) B+ (3.32)
Bussey, Thomas J CHEM 4 - Chemical Thinking (A) FA21406 215 91.3% 95.1% 5.74 B (3.04) B- (2.85)
Hopkins, Patrycja Anna CHEM 40A - Organic Chemistry I (A) FA21200 89 82.8% 89.7% 7.08 B (3.10) B- (2.76)
Bertrand, Guy CHEM 40A - Organic Chemistry I (B) FA21242 115 90.0% 96.3% 7.58 B (3.27) B- (2.95)
Bertrand, Guy CHEM 40A - Organic Chemistry I (C) FA21315 150 90.8% 98.6% 7.13 B+ (3.48) B (3.02)
Albizati, Kim F. CHEM 40A - Organic Chemistry I (D) FA21339 159 80.3% 87.4% 8.62 B (3.01) B- (2.91)
Albizati, Kim F. CHEM 40A - Organic Chemistry I (E) FA21195 81 77.9% 90.9% 9.01 B (3.04) B- (2.79)
Theodorakis, Emmanuel CHEM 40B - Organic Chemistry II (A) FA21320 136 65.4% 87.7% 7.77 C+ (2.50) B- (2.75)
Ternansky, Robert J. CHEM 40C - Organic Chemistry III (A) FA2176 35 57.6% 63.6% 8.63 C+ (2.50) C+ (2.53)
Klosterman, Jeremy K CHEM 43A - Organic Chemistry Laboratory (A) FA21272 250 75.6% 82.7% 8.36 B (3.13) B- (2.90)
Klosterman, Jeremy K CHEM 43A - Organic Chemistry Laboratory (B) FA21244 218 73.4% 74.8% 9.06 B (3.13) B- (2.96)
Pomeroy, Robert S. CHEM 6A - General Chemistry I (A) FA21321 186 69.1% 61.8% 8.36 B- (2.98) C+ (2.52)
Schurmeier, Kimberly CHEM 6A - General Chemistry I (B) FA21307 231 85.8% 92.0% 6.48 B (3.00) B- (2.71)
Brydges, Stacey CHEM 6A - General Chemistry I (C) FA21314 164 85.4% 87.9% 6.60 B (3.18) B (3.22)
Stallings, Dontarie M CHEM 6A - General Chemistry I (D) FA21312 258 92.2% 94.9% 6.60 B (3.12) B- (2.77)
Brydges, Stacey CHEM 6A - General Chemistry I (E) FA21309 179 87.4% 87.4% 7.21 B (3.07) B (3.15)
Schurmeier, Kimberly CHEM 6A - General Chemistry I (F) FA21334 274 88.0% 85.4% 6.29 B (3.22) B- (2.92)
Zid, Brian M CHEM 6A - General Chemistry I (G) FA21334 184 87.2% 89.8% 6.90 B (3.26) B (3.20)
Stallings, Dontarie M CHEM 6A - General Chemistry I (H) FA21341 284 89.3% 90.7% 6.41 B (3.23) B- (2.98)
Bussey, Thomas J CHEM 6A - General Chemistry I (I) FA21351 195 93.0% 95.2% 5.64 B+ (3.48) B (3.30)
Kim, Judy E. CHEM 6AH - Honors General Chemistry I (A) FA21102 62 73.8% 91.8% 8.30 B (3.17) B+ (3.31)
Lam, Tin Yiu CHEM 6B - General Chemistry II (A) FA21250 113 78.0% 78.7% 6.63 B (3.16) B- (2.72)
Lam, Tin Yiu CHEM 6C - General Chemistry III (A) FA21358 146 64.1% 63.8% 7.30 B- (2.82) C+ (2.59)
Leigh, Brian CHEM 7L - General Chemistry Laboratory (A) FA21307 156 76.5% 86.6% 6.93 B- (2.98) B (3.09)
Leigh, Brian CHEM 7L - General Chemistry Laboratory (B) FA21306 122 69.8% 82.1% 7.17 B- (2.92) B- (2.93)
Leigh, Brian CHEM 7L - General Chemistry Laboratory (C) FA21109 52 74.0% 86.0% 7.32 B (3.00) B- (2.94)
Bussey, Thomas J CHEM 87 - Freshman Seminar (A) FA2115 8 100.0% 100.0% 0.75 B+ (3.33) N/A
Bussey, Thomas J CHEM 96 - Introductn to Teaching Science (A) FA2119 12 100.0% 100.0% 2.14 B+ (3.45) N/A
Hamaoka, Brent Y CHEM 109 - Recombinant DNA Laboratory (A) S22143 17 93.3% 100.0% 13.97 B+ (3.60) B+ (3.53)
Bussey, Thomas J CHEM 114A - Biochemical Structure&Function (A) S22186 26 100.0% 100.0% 10.58 B+ (3.31) B (3.20)
Bussey, Thomas J CHEM 4 - Chemical Thinking (A) S22115 5 60.0% 60.0% 10.10 B+ (3.33) N/A
Klosterman, Jeremy K CHEM 40A - Organic Chemistry I (A) S22169 59 88.1% 89.7% 10.43 C+ (2.61) B- (2.73)
Klosterman, Jeremy K CHEM 40B - Organic Chemistry II (A) S22153 37 83.8% 91.9% 10.28 B- (2.80) C+ (2.53)
Ternansky, Robert J. CHEM 40C - Organic Chemistry III (A) S22152 14 71.4% 57.1% 13.36 C+ (2.62) B- (2.71)
Hunter, Kelly Marie CHEM 6A - General Chemistry I (A) S22174 44 90.7% 100.0% 6.17 B+ (3.65) B (3.29)
Schurmeier, Kimberly CHEM 6A - General Chemistry I (B) S22187 78 98.7% 96.1% 4.55 B+ (3.35) B (3.07)
Lam, Tin Yiu CHEM 6B - General Chemistry II (A) S22165 17 88.2% 88.2% 8.97 B (3.06) B- (2.98)
Stallings, Dontarie M CHEM 6C - General Chemistry III (A) S22182 19 83.3% 77.8% 8.83 B- (2.94) C (2.02)
Schurmeier, Kimberly CHEM 11 - The Periodic Table (A) S12182 29 96.6% 100.0% 5.50 B+ (3.70) B+ (3.64)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Lab II (A) S12141 12 50.0% 41.7% 9.00 C+ (2.36) B- (2.94)
Hopkins, Patrycja Anna CHEM 40A - Organic Chemistry I (A) S121103 29 92.9% 82.1% 11.21 B (3.00) B- (2.76)
Weizman, Haim CHEM 40B - Organic Chemistry II (A) S121119 21 55.0% 90.0% 9.74 B- (2.86) B- (2.75)
Albizati, Kim F. CHEM 40C - Organic Chemistry III (A) S121142 26 83.3% 100.0% 8.82 B- (2.88) B- (2.80)
Weizman, Haim CHEM 43A - Organic Chemistry Laboratory (A) S121119 18 70.6% 82.4% 8.26 B (3.18) B (3.02)
Torres Paris, Constanza Paz CHEM 6A - General Chemistry I (A) S12180 54 98.1% 98.1% 5.87 B+ (3.33) B+ (3.33)
Edwards, Madison Marie CHEM 6B - General Chemistry II (A) S121112 44 93.2% 100.0% 6.45 B- (2.91) B- (2.97)
Hamaoka, Brent Y CHEM 6C - General Chemistry III (A) S121114 35 48.6% 57.1% 10.56 B- (2.71) B- (2.90)
Leigh, Brian CHEM 7L - General Chemistry Laboratory (A) S121109 35 84.8% 97.0% 11.21 B (3.21) B (3.02)
Leigh, Brian CHEM 7L - General Chemistry Laboratory (B) S121110 43 85.7% 100.0% 10.69 B+ (3.37) B (3.01)
Li, Shaowei CHEM 100A - Analytical Chemistry Lab (A) SP2197 36 68.6% 71.4% 10.78 B+ (3.38) B+ (3.33)
Pomeroy, Robert S. CHEM 100B - Instrumental Chemistry Lab (A) SP2128 8 71.4% 100.0% 9.75 B (3.29) B+ (3.33)
Pomeroy, Robert S. CHEM 100B - Instrumental Chemistry Lab (B) SP2126 4 75.0% 100.0% 7.50 B- (2.75) B+ (3.57)
Sinha, Amitabha CHEM 105A - Physical Chemistry Laboratory (A) SP2143 25 48.0% 64.0% 11.70 B (3.00) B (3.01)
Sinha, Amitabha CHEM 105A - Physical Chemistry Laboratory (B) SP2140 24 45.8% 79.2% 11.58 B (3.29) B (3.26)
Jennings, Patricia A. CHEM 108 - Protein Biochemistry Lab (A) SP2162 30 41.4% 20.7% 9.83 B+ (3.54) B+ (3.62)
Jennings, Patricia A. CHEM 108 - Protein Biochemistry Lab (B) SP2169 23 36.4% 22.7% 9.05 B (3.11) B+ (3.67)
Mishanina, Tatiana V CHEM 109 - Recombinant DNA Laboratory (A) SP2145 23 81.0% 81.0% 10.02 A- (3.80) A- (3.84)
Mishanina, Tatiana V CHEM 109 - Recombinant DNA Laboratory (B) SP2142 16 93.8% 100.0% 9.38 B+ (3.50) A- (3.83)
Wang, Wei CHEM 11 - The Periodic Table (A) SP21247 146 93.8% 91.7% 4.69 B+ (3.64) B+ (3.60)
Komives, Elizabeth A CHEM 114C - Biosynthesis of Macromolecules (A) SP21252 115 82.5% 72.6% 7.50 B+ (3.32) B+ (3.66)
Donoghue, Daniel J. CHEM 118 - Pharmacology and Toxicology (A) SP21272 119 89.7% 92.2% 6.53 B+ (3.51) B+ (3.50)
Schimpf, Alina M CHEM 123 - Advanced Inorganic Chem Lab (A) SP2115 8 85.7% 85.7% 7.64 B+ (3.43) N/A
Kim, Judy E. CHEM 126B - Phys Biochem: Quantum Mech (A) SP2191 39 76.3% 94.7% 8.72 B (3.28) B (3.02)
Hoeger, Carl CHEM 13 - Chemistry of Life (A) SP2130 9 100.0% 88.9% 7.83 B (3.22) B- (2.98)
Xiong, Wei CHEM 132 - Chem Physics: Stat Thermo II (A) SP2192 31 80.0% 93.3% 8.91 B- (2.84) B (3.00)
Xiong, Wei CHEM 135 - Molecular Spectroscopy (A) SP216 3 100.0% 100.0% 7.17 B+ (3.33) N/A
Ternansky, Robert J. CHEM 143B - Organic Chemistry Lab II (A) SP21108 43 69.8% 53.5% 6.45 B- (2.89) B+ (3.35)
Yang, Jerry CHEM 156 - Struct&Properties/Organc Molec (A) SP2115 4 100.0% 100.0% 6.00 B (3.00) N/A
Burkart, Michael D CHEM 157 - Bioorganic & Natural Prod Chem (A) SP2150 36 94.4% 97.2% 6.89 B+ (3.44) B+ (3.54)
Deshmukh, Lalit CHEM 167 - Medicinal Chemistry (A) SP21151 122 89.3% 90.2% 6.50 B (3.16) B (3.11)
Mayer, Kathryn Jeanette CHEM 173 - Atmospheric Chemistry (A) SP2190 38 100.0% 100.0% 4.28 A- (3.94) A- (3.83)
Dickson, Andrew Gilmore CHEM 174 - Chem Prin of Marine Systems (A) SP2137 16 87.5% 93.8% 6.38 B (3.23) B (3.05)
Gilson, Michael K. CHEM 186 - Molecular Simulations Lab (A) SP2115 9 100.0% 100.0% 8.00 A- (3.88) N/A
Albizati, Kim F. CHEM 40A - Organic Chemistry I (A) SP21259 106 79.0% 95.0% 7.40 B (3.16) B- (2.78)
Hoeger, Carl CHEM 40B - Organic Chemistry II (A) SP21137 37 73.0% 70.3% 9.42 B- (2.87) B- (2.70)
Molinski, Tadeusz CHEM 40B - Organic Chemistry II (B) SP2112 4 33.3% 66.7% 5.17 C+ (2.50) N/A
Schmidt, Valerie A CHEM 40B - Organic Chemistry II (C) SP21181 168 70.2% 77.4% 7.63 B (3.01) B+ (3.35)
Ferguson, Fleur CHEM 40B - Organic Chemistry II (D) SP21168 115 58.3% 55.7% 8.91 B- (2.78) B (3.09)
Romero, Nathan A CHEM 40C - Organic Chemistry III (A) SP21337 177 74.3% 87.1% 7.83 B (3.09) B (3.22)
Ternansky, Robert J. CHEM 40C - Organic Chemistry III (B) SP21215 99 61.7% 68.1% 8.42 B- (2.83) B- (2.93)
Tor, Yitzhak CHEM 40CH - Honors Organic Chemistry III (A) SP2184 46 93.5% 100.0% 7.26 B+ (3.52) B+ (3.48)
Klosterman, Jeremy K CHEM 43A - Organic Chemistry Laboratory (A) SP21347 318 85.5% 81.4% 8.39 B+ (3.32) B (3.11)
Klosterman, Jeremy K CHEM 43A - Organic Chemistry Laboratory (B) SP21352 323 84.2% 86.4% 8.25 B+ (3.33) B (3.22)
Deshmukh, Lalit CHEM 6A - General Chemistry I (A) SP21221 168 90.9% 91.5% 5.38 B (3.12) B (3.03)
Young, Mark CHEM 6B - General Chemistry II (A) SP21219 97 74.2% 75.3% 6.84 B- (2.94) B- (2.79)
Young, Mark CHEM 6B - General Chemistry II (B) SP21254 122 67.5% 72.6% 7.63 B- (2.95) B- (2.90)
Debelouchina, Galia T CHEM 6C - General Chemistry III (A) SP21319 200 88.1% 98.5% 6.50 B+ (3.43) B+ (3.44)
Brydges, Stacey CHEM 6C - General Chemistry III (B) SP21306 170 86.1% 86.7% 7.27 B+ (3.33) B+ (3.47)
Stallings, Dontarie M CHEM 6C - General Chemistry III (C) SP21288 237 92.3% 92.3% 5.86 B+ (3.40) B (3.07)
Stallings, Dontarie M CHEM 6C - General Chemistry III (D) SP21277 225 93.3% 90.6% 5.76 B+ (3.40) B (3.14)
Brydges, Stacey CHEM 6C - General Chemistry III (E) SP21290 173 84.2% 87.1% 6.72 B (3.18) B+ (3.42)
Kubiak, Clifford Paul CHEM 6CH - Honors General Chemistry III (A) SP2153 32 80.6% 83.3% 6.24 B+ (3.46) A- (3.84)
Schurmeier, Kimberly CHEM 7L - General Chemistry Laboratory (A) SP21272 241 64.9% 76.2% 8.76 B (3.20) B (3.09)
Schurmeier, Kimberly CHEM 7L - General Chemistry Laboratory (B) SP21286 254 60.6% 76.8% 8.59 B+ (3.31) B (3.11)
Bussey, Thomas J CHEM 96 - Introductn to Teaching Science (A) SP2112 6 100.0% 100.0% 3.17 A- (3.83) N/A
Brydges, Stacey CHEM 1 - Scope of Chem and Biochem (A) WI2125 16 87.5% 93.8% 1.00 A (4.00) N/A
Pomeroy, Robert S. CHEM 100A - Analytical Chemistry Lab (A) WI21149 74 84.7% 83.1% 10.69 B+ (3.49) B (3.12)
Pomeroy, Robert S. CHEM 100B - Instrumental Chemistry Lab (A) WI2132 12 75.0% 83.3% 9.33 B (3.09) B+ (3.40)
Pomeroy, Robert S. CHEM 100B - Instrumental Chemistry Lab (B) WI2127 9 71.4% 100.0% 12.50 B+ (3.50) B+ (3.42)
Young, Mark CHEM 105A - Physical Chemistry Laboratory (A) WI2134 11 36.4% 63.6% 10.50 C+ (2.63) B (3.29)
Young, Mark CHEM 105A - Physical Chemistry Laboratory (B) WI2140 14 23.1% 46.2% 10.50 B+ (3.30) B+ (3.43)
Hamaoka, Brent Y CHEM 109 - Recombinant DNA Laboratory (A) WI2154 19 94.7% 84.2% 9.76 A- (3.79) A- (3.88)
Hamaoka, Brent Y CHEM 109 - Recombinant DNA Laboratory (B) WI2147 18 100.0% 94.4% 10.94 A- (3.83) B+ (3.68)
Muller, Ulrich K. CHEM 114A - Biochemical Structure&Function (A) WI21141 80 92.1% 90.7% 6.99 B (3.18) B (3.14)
Budin, Itay CHEM 114B - Biochem Energetics&Metabolism (A) WI21190 118 97.5% 99.1% 7.43 B (3.29) B (3.22)
Joseph, Simpson CHEM 114C - Biosynthesis of Macromolecules (A) WI2160 28 88.5% 80.0% 7.73 B (3.00) B- (2.78)
Komor, Alexis C CHEM 115 - Genome Editing (A) WI2123 9 100.0% 100.0% 8.50 B+ (3.44) B+ (3.59)
Huang, Xuemei CHEM 12 - Molecules and Reactions (A) WI2159 15 85.7% 85.7% 4.36 A- (3.80) B+ (3.52)
Figueroa, Joshua CHEM 120A - Inorganic Chemistry I (A) WI2168 46 95.6% 95.5% 6.54 B (3.12) B- (2.78)
Sailor, Michael Joseph CHEM 120B - Inorganic Chemistry II (A) WI21117 39 91.7% 97.2% 7.15 B (3.25) B+ (3.39)
Tezcan, Faik CHEM 125 - Bioinorganic Chemistry (A) WI2127 10 100.0% 100.0% 4.50 B (3.22) B (3.23)
Schoeneberg, Johannes CHEM 126A - Phys Biochem: Thermodynamics (A) WI2178 64 84.4% 89.1% 6.78 B (3.02) B (3.01)
Paesani, Francesco CHEM 126B - Phys Biochem: Quantum Mech (A) WI21264 113 58.6% 84.7% 8.29 B- (2.96) B- (2.97)
Galperin, Michael CHEM 131 - Chem Physics: Stat Thermo I (A) WI21114 41 82.9% 90.2% 8.21 B (3.08) B- (2.81)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Lab II (A) WI21134 62 59.3% 47.5% 7.96 B- (2.90) B+ (3.53)
Donoghue, Daniel J. CHEM 151 - Molecules That Changed World (A) WI2180 31 96.8% 100.0% 3.66 A- (3.97) A- (3.95)
Romero, Nathan A CHEM 155 - Synthesis of Complex Molecules (A) WI2113 5 100.0% 100.0% 8.50 B (3.20) N/A
Schmidt, Valerie A CHEM 155 - Synthesis of Complex Molecules (A) WI2113 5 100.0% 100.0% 8.50 B (3.20) N/A
Perrin, Charles L. CHEM 158 - Applied Spectroscopy (A) WI218 3 100.0% 100.0% 3.83 B+ (3.50) N/A
Herzik, Mark Anthony CHEM 165 - 3D Elctron Microscopy/Macromol (A) WI2122 10 80.0% 88.9% 8.70 B (3.17) B+ (3.47)
Devaraj, Neal Krishna CHEM 168 - Drug Synthesis and Design (A) WI21119 104 97.1% 97.1% 5.27 B (3.29) B (3.22)
Thiemens, Mark H CHEM 172 - Environmental Chemistry II (A) WI2155 14 78.6% 92.9% 5.21 B+ (3.36) B (3.01)
Bussey, Thomas J CHEM 187 - Foundn of Teach&Learn Science (A) WI2112 7 100.0% 100.0% 4.21 A- (3.71) N/A
Newsam, John CHEM 194 - Special Topics in Chemistry (A) WI2110 7 100.0% 100.0% 4.21 A (4.00) N/A
Bertrand, Guy CHEM 40A - Organic Chemistry I (A) WI21241 120 95.7% 100.0% 6.43 B+ (3.45) B- (2.93)
Bertrand, Guy CHEM 40A - Organic Chemistry I (B) WI21244 123 94.2% 98.3% 6.47 B+ (3.39) B- (2.92)
Ternansky, Robert J. CHEM 40B - Organic Chemistry II (A) WI21164 87 72.3% 68.3% 8.99 B- (2.83) B- (2.79)
Klosterman, Jeremy K CHEM 40B - Organic Chemistry II (B) WI21302 257 81.6% 88.6% 8.59 B (3.08) B- (2.99)
Hoeger, Carl CHEM 40B - Organic Chemistry II (C) WI21280 111 61.9% 65.7% 9.17 B- (2.93) B (3.06)
Burkart, Michael D CHEM 40B - Organic Chemistry II (D) WI21214 188 78.5% 94.1% 8.26 B- (2.97) B (3.09)
Weizman, Haim CHEM 40BH - Honors Organic Chemistry II (A) WI2180 49 89.8% 93.9% 8.21 B (3.23) B+ (3.67)
Godula, Kamil CHEM 40C - Organic Chemistry III (A) WI21388 360 72.2% 85.8% 8.23 B (3.29) B+ (3.44)
Weizman, Haim CHEM 43A - Organic Chemistry Laboratory (A) WI21258 143 37.3% 44.0% 12.56 B (3.15) B+ (3.48)
Weizman, Haim CHEM 43A - Organic Chemistry Laboratory (B) WI21344 213 34.3% 41.6% 13.90 B (3.03) B+ (3.52)
Tezcan, Faik CHEM 6A - General Chemistry I (A) WI21302 150 83.6% 80.4% 6.73 B (3.14) B- (2.94)
Albizati, Kim F. CHEM 6A - General Chemistry I (B) WI21297 144 81.6% 79.7% 6.36 B (3.02) B- (2.87)
Stallings, Dontarie M CHEM 6B - General Chemistry II (A) WI21311 274 80.8% 80.3% 7.43 B (3.04) C+ (2.69)
Hoeger, Carl CHEM 6B - General Chemistry II (B) WI21222 128 72.8% 50.4% 7.81 B- (2.81) B+ (3.33)
Komor, Alexis C CHEM 6B - General Chemistry II (C) WI21291 253 89.7% 90.1% 6.71 B+ (3.44) B+ (3.43)
Lam, Tin Yiu CHEM 6B - General Chemistry II (D) WI21217 113 85.0% 79.2% 6.52 B (3.19) B (3.03)
Lam, Tin Yiu CHEM 6B - General Chemistry II (E) WI21217 120 88.9% 87.9% 7.03 B (3.23) B (3.16)
Schurmeier, Kimberly CHEM 6B - General Chemistry II (G) WI21237 216 84.3% 80.1% 6.55 B+ (3.32) B (3.11)
Stallings, Dontarie M CHEM 6B - General Chemistry II (H) WI21231 213 84.9% 81.6% 6.92 B (3.26) B (3.04)
Paesani, Francesco CHEM 6BH - Honors General Chemistry II (A) WI2176 53 82.7% 90.4% 7.27 B (3.22) B+ (3.42)
Ghosh, Partho CHEM 6C - General Chemistry III (A) WI21222 114 82.0% 90.1% 7.07 B- (2.98) B- (2.70)
Leigh, Brian CHEM 7L - General Chemistry Laboratory (A) WI21242 131 91.3% 97.6% 8.12 B (3.22) B (3.26)
Leigh, Brian CHEM 7L - General Chemistry Laboratory (B) WI21240 134 86.7% 96.9% 7.96 B (3.28) B (3.29)
Brydges, Stacey CHEM 87 - Freshman Seminar (A) WI216 4 100.0% 100.0% 0.50 N/A N/A
Pomeroy, Robert S. CHEM 100A - Analytical Chemistry Lab (A) FA20165 71 79.7% 89.9% 9.22 B+ (3.39) B (3.30)
Young, Mark CHEM 105A - Physical Chemistry Laboratory (A) FA2037 14 71.4% 78.6% 13.50 B (3.21) B (3.23)
Young, Mark CHEM 105A - Physical Chemistry Laboratory (B) FA2039 12 100.0% 100.0% 11.83 B+ (3.50) B- (2.83)
Stallings, Dontarie M CHEM 108 - Protein Biochemistry Lab (A) FA2072 61 66.7% 68.3% 12.67 B+ (3.41) B+ (3.44)
Stallings, Dontarie M CHEM 108 - Protein Biochemistry Lab (B) FA2047 39 61.5% 69.2% 15.78 B+ (3.38) B (3.29)
Mrse, Anthony Adrian CHEM 11 - The Periodic Table (A) FA20344 161 94.3% 98.1% 5.39 B+ (3.55) B+ (3.55)
Herzik, Mark Anthony CHEM 114A - Biochemical Structure&Function (A) FA20288 151 88.4% 78.9% 9.22 B (3.01) B- (2.90)
Mishanina, Tatiana V CHEM 114B - Biochem Energetics&Metabolism (A) FA2077 48 88.4% 90.7% 8.36 B+ (3.51) B+ (3.45)
Godula, Kamil CHEM 116 - Chemical Biology (A) FA2051 22 100.0% 100.0% 6.32 B+ (3.43) B+ (3.56)
Rinehart, Jeffrey Dennis CHEM 120A - Inorganic Chemistry I (A) FA20339 173 83.0% 88.8% 7.29 B (3.29) B (3.20)
Yuen Zhou, Joel CHEM 126A - Phys Biochem: Thermodynamics (A) FA20289 181 71.1% 82.8% 8.59 B (3.09) B (3.11)
Yuen Zhou, Joel CHEM 126A - Phys Biochem: Thermodynamics (B) FA2021 9 88.9% 88.9% 8.28 B+ (3.56) B (3.11)
Sinha, Amitabha CHEM 130 - Chem Physics: Quantum Mech (A) FA20129 106 57.5% 60.0% 9.99 C+ (2.67) C+ (2.53)
Esko, Jeffrey D. CHEM 142 - Intro to Glycosciences (A) FA2032 13 100.0% 100.0% 6.50 B+ (3.33) B+ (3.68)
Godula, Kamil CHEM 142 - Intro to Glycosciences (A) FA2032 13 100.0% 100.0% 6.50 B+ (3.33) B+ (3.68)
Ternansky, Robert J. CHEM 143C - Organic Chemistry Laboratory (A) FA20101 48 76.6% 72.3% 8.37 B- (2.98) B+ (3.33)
Theodorakis, Emmanuel CHEM 152 - Synthetic Methods/Organic Chem (A) FA2028 9 77.8% 88.9% 7.83 B (3.00) B (3.14)
Tor, Yitzhak CHEM 154 - Mechanisms/Organic Reactions (A) FA2049 18 94.4% 94.4% 7.39 B (3.19) B+ (3.40)
Slade, Jonathan CHEM 171 - Environmental Chemistry I (A) FA20121 65 93.3% 95.0% 5.47 B+ (3.46) B (3.23)
Hoeger, Carl CHEM 4 - Chemical Thinking (B) FA20393 211 84.7% 76.4% 6.28 B- (2.91) B (3.18)
Oconnor, Joseph M. CHEM 40A - Organic Chemistry I (A) FA20159 76 61.3% 56.0% 9.57 C+ (2.51) C+ (2.43)
Hoeger, Carl CHEM 40A - Organic Chemistry I (B) FA20340 161 72.5% 68.9% 9.02 B- (2.84) B- (2.78)
Albizati, Kim F. CHEM 40A - Organic Chemistry I (C) FA20268 133 82.8% 94.5% 8.04 B- (2.98) B- (2.87)
Albizati, Kim F. CHEM 40A - Organic Chemistry I (D) FA20411 207 86.9% 95.5% 7.64 B (3.07) B- (2.93)
Perrin, Charles L. CHEM 40A - Organic Chemistry I (E) FA20102 57 73.2% 69.1% 7.48 B- (2.82) C+ (2.32)
Theodorakis, Emmanuel CHEM 40B - Organic Chemistry II (A) FA20303 133 65.1% 78.4% 7.96 B- (2.80) B- (2.73)
Ternansky, Robert J. CHEM 40C - Organic Chemistry III (A) FA20163 78 44.7% 51.3% 9.89 C+ (2.70) B- (2.71)
Klosterman, Jeremy K CHEM 43A - Organic Chemistry Laboratory (A) FA20405 394 80.2% 86.0% 7.18 B+ (3.37) B (3.27)
Klosterman, Jeremy K CHEM 43AM - Organic Chem Lab - Majors (A) FA2041 35 91.4% 94.3% 6.84 B+ (3.34) B- (2.91)
Pomeroy, Robert S. CHEM 6A - General Chemistry I (A) FA20274 153 92.6% 88.5% 6.06 B (3.24) B+ (3.37)
Schurmeier, Kimberly CHEM 6A - General Chemistry I (B) FA20319 274 85.7% 83.9% 5.88 B (3.24) B- (2.81)
Brydges, Stacey CHEM 6A - General Chemistry I (C) FA20270 166 92.0% 97.5% 6.37 B+ (3.46) B+ (3.43)
Brydges, Stacey CHEM 6A - General Chemistry I (E) FA20315 184 92.3% 92.7% 6.41 B+ (3.55) B+ (3.33)
Bussey, Thomas J CHEM 6A - General Chemistry I (F) FA20271 173 98.8% 99.4% 6.23 B+ (3.49) B+ (3.35)
Lam, Tin Yiu CHEM 6A - General Chemistry I (H) FA20264 161 89.6% 85.6% 5.73 B+ (3.34) B (3.21)
Zid, Brian M CHEM 6A - General Chemistry I (I) FA20318 188 97.3% 98.9% 5.43 A- (3.76) B+ (3.60)
Crowell, John E CHEM 6A - General Chemistry I (J) FA20318 198 60.8% 29.5% 5.85 B+ (3.35) B+ (3.34)
Bussey, Thomas J CHEM 6A - General Chemistry I (K) FA20315 219 97.6% 98.6% 6.06 B+ (3.53) B+ (3.46)
Tauber, Michael CHEM 6AH - Honors General Chemistry I (A) FA20109 72 79.7% 87.0% 7.62 B (3.13) B (3.15)
Crowell, John E CHEM 6B - General Chemistry II (A) FA20236 99 63.3% 43.9% 7.57 B- (2.99) B- (2.81)
Lam, Tin Yiu CHEM 6C - General Chemistry III (A) FA20304 120 75.2% 77.0% 7.55 B- (2.86) C+ (2.61)
Leigh, Brian CHEM 7L - General Chemistry Laboratory (A) FA20346 191 90.2% 94.0% 7.43 B+ (3.39) B (3.12)
Leigh, Brian CHEM 7L - General Chemistry Laboratory (B) FA20349 173 89.1% 95.8% 8.19 B (3.25) B- (2.96)
Bussey, Thomas J CHEM 87 - Freshman Seminar (A) FA2015 9 100.0% 100.0% 1.39 N/A N/A
Bussey, Thomas J CHEM 96 - Introductn to Teaching Science (A) FA2017 11 100.0% 100.0% 4.14 B+ (3.60) N/A
Bussey, Thomas J CHEM 114A - Biochemical Structure&Function (A) S220100 34 100.0% 100.0% 10.14 B+ (3.55) B+ (3.44)
Schurmeier, Kimberly CHEM 120A - Inorganic Chemistry I (A) S220104 76 89.5% 90.8% 7.32 B (3.29) B- (2.83)
Ternansky, Robert J. CHEM 40A - Organic Chemistry I (A) S22052 18 64.7% 70.6% 14.85 C+ (2.47) C+ (2.63)
Klosterman, Jeremy K CHEM 40B - Organic Chemistry II (A) S22080 72 80.3% 87.3% 10.30 B- (2.93) B- (2.74)
Klosterman, Jeremy K CHEM 40C - Organic Chemistry III (A) S22075 57 78.9% 91.2% 11.55 B- (2.76) B- (2.80)
Bussey, Thomas J CHEM 6A - General Chemistry I (A) S22098 37 97.2% 100.0% 7.72 B+ (3.63) B+ (3.42)
Crocker, Daniel Robert CHEM 6B - General Chemistry II (A) S22049 11 77.8% 55.6% 11.50 B+ (3.33) B- (2.82)
Mantanona, Alex Jason CHEM 6C - General Chemistry III (A) S220118 42 95.2% 85.4% 7.36 B+ (3.45) B (3.10)
Schurmeier, Kimberly CHEM 11 - The Periodic Table (A) S12062 44 97.7% 97.7% 6.32 A- (3.85) B+ (3.67)
Hoeger, Carl CHEM 12 - Molecules and Reactions (A) S12016 4 100.0% 100.0% 6.00 A (4.00) N/A
Ternansky, Robert J. CHEM 143B - Organic Chemistry Lab II (A) S12056 13 92.3% 92.3% 9.73 B (3.08) B+ (3.34)
Hoeger, Carl CHEM 40A - Organic Chemistry I (A) S120125 35 78.8% 77.4% 11.19 B- (2.79) B (3.12)
Weizman, Haim CHEM 40B - Organic Chemistry II (A) S12090 24 79.2% 95.8% 9.08 B- (2.71) B (3.27)
Ternansky, Robert J. CHEM 40C - Organic Chemistry III (A) S12058 14 64.3% 57.1% 12.07 C+ (2.50) C+ (2.70)
Weizman, Haim CHEM 43A - Organic Chemistry Laboratory (A) S12065 17 53.3% 69.2% 11.00 B (3.06) B+ (3.42)
Dommer, Abigail Catherine CHEM 6A - General Chemistry I (A) S12079 27 100.0% 100.0% 8.19 B+ (3.60) B (3.22)
Stallings, Dontarie M CHEM 6B - General Chemistry II (A) S120121 88 93.1% 96.6% 8.57 B (3.13) B- (2.99)
Stallings, Dontarie M CHEM 6C - General Chemistry III (A) S120150 125 96.0% 98.4% 7.75 B (3.18) B (3.28)
Leigh, Brian CHEM 7L - General Chemistry Laboratory (A) S12032 15 84.6% 92.3% 8.64 B+ (3.31) B- (2.87)
Leigh, Brian CHEM 7L - General Chemistry Laboratory (B) S12035 11 90.9% 100.0% 8.14 B+ (3.36) B (3.14)
Pomeroy, Robert S. CHEM 100A - Analytical Chemistry Lab (A) SP2065 19 94.4% 100.0% 9.83 B+ (3.69) B+ (3.59)
Pomeroy, Robert S. CHEM 100B - Instrumental Chemistry Lab (A) SP2026 9 55.6% 87.5% 10.06 B (3.13) B+ (3.50)
Sinha, Amitabha CHEM 105A - Physical Chemistry Laboratory (A) SP2036 8 42.9% 42.9% 7.93 C+ (2.60) B- (2.86)
Sinha, Amitabha CHEM 105A - Physical Chemistry Laboratory (C) SP2033 13 53.8% 83.3% 11.27 B (3.18) B (3.19)
Jennings, Patricia A. CHEM 108 - Protein Biochemistry Lab (A) SP2053 24 73.9% 78.3% 5.50 B (3.26) B+ (3.67)
Jennings, Patricia A. CHEM 108 - Protein Biochemistry Lab (B) SP2047 9 87.5% 75.0% 4.75 A- (3.88) A- (3.78)
Wang, Wei CHEM 11 - The Periodic Table (A) SP20302 169 92.9% 91.7% 4.33 B+ (3.68) A- (3.70)
Komives, Elizabeth A CHEM 113 - Biophysical Chem of Macromolec (A) SP2073 32 100.0% 100.0% 6.88 A- (3.84) A- (3.86)
Mishanina, Tatiana V CHEM 114B - Biochem Energetics&Metabolism (A) SP20102 39 100.0% 100.0% 7.37 B+ (3.69) B+ (3.55)
Toor, Navtej CHEM 114C - Biosynthesis of Macromolecules (A) SP20266 97 83.9% 78.5% 7.47 B (3.23) B+ (3.33)
Ghosh, Gourisankar CHEM 114D - Molecular & Cellular Biochem (A) SP2018 4 66.7% 33.3% 5.83 B (3.00) N/A
Donoghue, Daniel J. CHEM 118 - Pharmacology and Toxicology (A) SP20252 100 93.8% 92.8% 7.59 B+ (3.53) B+ (3.67)
Sailor, Michael Joseph CHEM 120B - Inorganic Chemistry II (A) SP2094 33 87.5% 100.0% 7.06 B+ (3.36) B+ (3.45)
Gibbard, Jemma Alice CHEM 132 - Chem Physics: Stat Thermo II (A) SP2094 23 65.2% 56.5% 7.20 B (3.05) B (3.23)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Lab II (A) SP20110 48 71.7% 59.1% 7.42 B- (2.88) B+ (3.50)
Schmidt, Valerie A CHEM 155 - Synthesis of Complex Molecules (A) SP2018 9 100.0% 100.0% 5.39 A- (3.78) N/A
Burkart, Michael D CHEM 157 - Bioorganic & Natural Prod Chem (A) SP2050 42 95.1% 100.0% 5.91 B+ (3.31) B+ (3.42)
Molinski, Tadeusz CHEM 158 - Applied Spectroscopy (A) SP2013 9 66.7% 88.9% 6.06 A (4.00) N/A
Deshmukh, Lalit CHEM 167 - Medicinal Chemistry (A) SP20113 93 81.7% 77.4% 7.66 B (3.11) B (3.16)
Prather, Kimberly A CHEM 173 - Atmospheric Chemistry (A) SP2092 31 100.0% 96.7% 4.89 A- (3.87) A- (3.77)
Dickson, Andrew Gilmore CHEM 174 - Chem Prin of Marine Systems (A) SP2036 14 57.1% 71.4% 7.50 B (3.10) B (3.27)
Weare, John H. CHEM 185 - Quantum Chemistry Lab (B) SP2013 6 50.0% 50.0% 7.17 B (3.00) N/A
Schnoebelen, Carly Lynn CHEM 188 - Capstone Sem in Science Eductn (A) SP2014 7 100.0% 100.0% 5.07 A- (3.86) N/A
Hoeger, Carl CHEM 40A - Organic Chemistry I (A) SP20190 78 60.8% 59.5% 8.45 B- (2.85) B (3.20)
Schmidt, Valerie A CHEM 40B - Organic Chemistry II (A) SP20309 137 73.9% 74.6% 8.49 B (3.23) B+ (3.66)
Albizati, Kim F. CHEM 40B - Organic Chemistry II (B) SP20419 185 86.4% 97.2% 7.68 B (3.01) B (3.27)
Ternansky, Robert J. CHEM 40C - Organic Chemistry III (A) SP20163 83 70.9% 70.9% 10.03 B- (2.98) B (3.09)
Hoeger, Carl CHEM 40C - Organic Chemistry III (B) SP20313 139 76.5% 69.7% 9.10 B (3.10) B+ (3.49)
Tor, Yitzhak CHEM 40CH - Honors Organic Chemistry III (A) SP2089 45 93.3% 95.6% 7.61 B+ (3.40) A- (3.89)
Klosterman, Jeremy K CHEM 43A - Organic Chemistry Laboratory (A) SP20195 173 84.9% 86.6% 6.82 B+ (3.36) B+ (3.31)
Klosterman, Jeremy K CHEM 43A - Organic Chemistry Laboratory (B) SP20211 195 88.7% 89.7% 7.34 B+ (3.42) B (3.29)
Deshmukh, Lalit CHEM 6A - General Chemistry I (A) SP20144 87 74.4% 69.8% 6.20 B (3.03) B (3.07)
Schurmeier, Kimberly CHEM 6A - General Chemistry I (B) SP20110 69 95.7% 98.6% 7.25 B (3.28) B+ (3.34)
Young, Mark CHEM 6B - General Chemistry II (A) SP20221 106 68.7% 63.3% 7.04 B- (2.92) B (3.01)
Young, Mark CHEM 6B - General Chemistry II (B) SP20280 129 72.4% 57.4% 6.53 B- (2.79) B- (2.96)
Debelouchina, Galia T CHEM 6C - General Chemistry III (A) SP20396 217 94.8% 98.6% 5.41 B+ (3.43) B+ (3.43)
Brydges, Stacey CHEM 6C - General Chemistry III (B) SP20342 184 92.3% 93.9% 7.49 B+ (3.32) B+ (3.65)
Lam, Tin Yiu CHEM 6C - General Chemistry III (D) SP20228 124 84.7% 74.6% 6.57 B (3.22) B (3.23)
Stallings, Dontarie M CHEM 6C - General Chemistry III (E) SP20165 144 89.5% 95.1% 5.61 B (3.27) B+ (3.50)
Stallings, Dontarie M CHEM 6C - General Chemistry III (F) SP20153 125 93.6% 93.6% 5.67 B+ (3.34) B+ (3.50)
Kubiak, Clifford Paul CHEM 6CH - Honors General Chemistry III (A) SP2044 26 84.6% 92.3% 6.96 B (3.29) A- (3.79)
Leigh, Brian CHEM 7L - General Chemistry Laboratory (A) SP20321 176 90.8% 97.1% 6.83 B+ (3.31) B+ (3.47)
Leigh, Brian CHEM 7L - General Chemistry Laboratory (B) SP20295 173 93.6% 98.2% 7.62 B (3.30) B+ (3.37)
Leigh, Brian CHEM 7LM - General Chemistry Lab - Majors (A) SP2078 47 80.9% 95.7% 7.90 B (3.23) B+ (3.54)
Bussey, Thomas J CHEM 96 - Introductn to Teaching Science (A) SP2019 9 100.0% 100.0% 3.17 A- (3.75) N/A
Brydges, Stacey CHEM 1 - Scope of Chem and Biochem (A) WI2010 5 100.0% 100.0% 0.50 N/A N/A
Slade, Jonathan CHEM 100A - Analytical Chemistry Lab (A) WI20143 86 86.6% 92.6% 7.73 B+ (3.48) B+ (3.64)
Pomeroy, Robert S. CHEM 100B - Instrumental Chemistry Lab (A) WI2030 10 77.8% 88.9% 8.30 B+ (3.30) B+ (3.39)
Pomeroy, Robert S. CHEM 100B - Instrumental Chemistry Lab (B) WI2028 9 75.0% 100.0% 12.25 B (3.13) B (3.29)
Young, Mark CHEM 105A - Physical Chemistry Laboratory (A) WI2038 14 35.7% 57.1% 11.64 B- (2.86) B (3.24)
Young, Mark CHEM 105A - Physical Chemistry Laboratory (B) WI2034 10 66.7% 66.7% 9.39 B- (2.78) B+ (3.45)
McHugh, Colleen A CHEM 109 - Recombinant DNA Laboratory (A) WI2047 27 96.2% 100.0% 8.42 B+ (3.62) A- (3.71)
McHugh, Colleen A CHEM 109 - Recombinant DNA Laboratory (B) WI2045 12 100.0% 90.9% 9.83 B+ (3.50) B+ (3.47)
Muller, Ulrich K. CHEM 114A - Biochemical Structure&Function (A) WI20109 64 90.0% 86.7% 6.80 B (3.27) B (3.02)
Komives, Elizabeth A CHEM 114B - Biochem Energetics&Metabolism (A) WI20284 133 95.3% 96.9% 7.19 B+ (3.40) B (3.18)
Komor, Alexis C CHEM 115 - Genome Editing (A) WI2016 10 100.0% 100.0% 6.10 B+ (3.50) N/A
Devaraj, Neal Krishna CHEM 116 - Chemical Biology (A) WI2035 22 86.4% 81.8% 3.59 B+ (3.33) B+ (3.68)
Huang, Xuemei CHEM 12 - Molecules and Reactions (A) WI2054 19 83.3% 88.9% 6.39 B (3.00) B (3.14)
Tezcan, Faik CHEM 125 - Bioinorganic Chemistry (A) WI2035 17 81.3% 87.5% 4.63 B- (2.87) B- (2.98)
Paesani, Francesco CHEM 126B - Phys Biochem: Quantum Mech (A) WI20182 64 80.3% 95.1% 7.17 B (3.10) C+ (2.66)
Galperin, Michael CHEM 131 - Chem Physics: Stat Thermo I (A) WI20112 38 75.0% 85.7% 8.50 B (3.03) C+ (2.54)
Pokorski, Jonathan Kyle CHEM 134 - Polymeric Materials (A) WI2013 4 100.0% 100.0% 5.83 C+ (2.67) N/A
Weizman, Haim CHEM 143B - Organic Chemistry Lab II (A) WI20130 54 55.8% 80.4% 6.85 B- (2.98) B (3.25)
Burkart, Michael D CHEM 145 - Biofuels & Renewable Materials (A) WI2015 11 100.0% 100.0% 3.59 B (3.27) N/A
Donoghue, Daniel J. CHEM 151 - Molecules That Changed World (A) WI2068 27 92.0% 100.0% 4.58 B+ (3.64) A- (3.88)
Yang, Jerry CHEM 156 - Struct&Properties/Organc Molec (A) WI2020 4 75.0% 100.0% 5.00 B (3.25) B+ (3.43)
McHugh, Colleen A CHEM 164 - Structural Biology of Viruses (A) WI2044 20 95.0% 100.0% 4.80 A- (3.70) B+ (3.43)
Herzik, Mark Anthony CHEM 165 - 3D Elctron Microscopy/Macromol (A) WI208 4 100.0% 100.0% 5.00 B+ (3.33) N/A
Villa Rodriguez, Elizabeth CHEM 165 - 3D Elctron Microscopy/Macromol (A) WI208 4 100.0% 100.0% 5.00 B+ (3.33) N/A
Devaraj, Neal Krishna CHEM 168 - Drug Synthesis and Design (A) WI20142 58 74.1% 76.9% 5.55 B (3.06) B (3.08)
Thiemens, Mark H CHEM 172 - Environmental Chemistry II (A) WI2063 24 91.3% 87.0% 5.41 B (3.05) B- (2.94)
Schnoebelen, Carly Lynn CHEM 187 - Foundn of Teach&Learn Science (A) WI2018 7 100.0% 100.0% 6.50 A (4.00) N/A
Newsam, John CHEM 194 - Special Topics in Chemistry (A) WI209 5 80.0% 80.0% 2.10 A- (3.80) N/A
Bertrand, Guy CHEM 40A - Organic Chemistry I (A) WI20264 137 92.3% 97.7% 6.22 B (3.26) B+ (3.52)
Bertrand, Guy CHEM 40A - Organic Chemistry I (B) WI20299 147 95.7% 97.8% 6.01 B+ (3.36) B+ (3.63)
Hoeger, Carl CHEM 40A - Organic Chemistry I (C) WI20134 57 74.5% 88.0% 7.93 C+ (2.65) B (3.28)
Ternansky, Robert J. CHEM 40B - Organic Chemistry II (A) WI20234 137 70.9% 85.7% 9.74 B- (2.75) B- (2.71)
Klosterman, Jeremy K CHEM 40B - Organic Chemistry II (B) WI20298 190 80.7% 93.5% 8.56 B (3.04) B- (2.87)
Ternansky, Robert J. CHEM 40B - Organic Chemistry II (D) WI20133 68 78.5% 92.2% 8.65 B (3.23) B- (2.79)
Hoeger, Carl CHEM 40B - Organic Chemistry II (E) WI20188 83 63.8% 75.9% 9.02 B- (2.75) B (3.26)
Weizman, Haim CHEM 40BH - Honors Organic Chemistry II (A) WI2085 47 91.3% 95.6% 7.85 B (3.30) B+ (3.67)
Godula, Kamil CHEM 40C - Organic Chemistry III (A) WI20322 304 80.8% 93.4% 8.09 B (3.11) B+ (3.30)
Figueroa, Joshua CHEM 43A - Organic Chemistry Laboratory (A) WI20286 229 74.1% 62.7% 7.23 B+ (3.42) A- (3.80)
Figueroa, Joshua CHEM 43A - Organic Chemistry Laboratory (B) WI20273 219 70.4% 54.4% 7.90 B+ (3.31) A- (3.74)
Tezcan, Faik CHEM 6A - General Chemistry I (A) WI20352 168 86.3% 89.9% 5.42 B- (2.76) C+ (2.64)
Sailor, Michael Joseph CHEM 6A - General Chemistry I (B) WI20366 179 86.4% 78.1% 6.08 B- (2.88) B- (2.90)
Albizati, Kim F. CHEM 6B - General Chemistry II (A) WI20305 169 90.6% 89.2% 5.09 B (3.13) B (3.12)
Kummel, Andrew C CHEM 6B - General Chemistry II (B) WI20116 74 88.6% 82.6% 6.30 B (3.09) B (3.00)
Komor, Alexis C CHEM 6B - General Chemistry II (C) WI20194 142 89.9% 92.8% 5.15 B (3.22) B (3.16)
Crowell, John E CHEM 6B - General Chemistry II (D) WI2081 39 73.7% 47.4% 7.34 B- (2.89) C+ (2.65)
Crowell, John E CHEM 6B - General Chemistry II (E) WI2054 34 78.1% 61.3% 6.88 B (3.13) B- (2.83)
Bussey, Thomas J CHEM 6B - General Chemistry II (F) WI20399 235 89.6% 94.5% 6.19 B (3.11) B- (2.86)
Lam, Tin Yiu CHEM 6B - General Chemistry II (G) WI20392 217 74.8% 66.2% 7.42 B- (2.98) B- (2.82)
Paesani, Francesco CHEM 6BH - Honors General Chemistry II (A) WI2053 36 91.7% 97.2% 7.06 B+ (3.44) B+ (3.43)
Ghosh, Partho CHEM 6C - General Chemistry III (A) WI20178 89 81.2% 87.1% 6.17 B (3.05) C+ (2.58)
Leigh, Brian CHEM 7L - General Chemistry Laboratory (A) WI20286 134 96.2% 99.2% 6.22 B (3.24) B (3.06)
Leigh, Brian CHEM 7L - General Chemistry Laboratory (B) WI20295 150 90.1% 97.2% 6.50 B+ (3.37) B (3.16)
Brydges, Stacey CHEM 87 - Freshman Seminar (A) WI208 5 100.0% 100.0% 0.50 N/A N/A
Pomeroy, Robert S. CHEM 100A - Analytical Chemistry Lab (A) FA19140 62 96.4% 94.4% 7.94 B (3.27) B (3.04)
Crowell, John E CHEM 105A - Physical Chemistry Laboratory (A) FA1939 19 66.7% 88.9% 8.17 B+ (3.39) B (3.22)
Crowell, John E CHEM 105A - Physical Chemistry Laboratory (B) FA1936 18 52.9% 70.6% 11.09 B (3.06) B- (2.92)
Ghosh, Gourisankar CHEM 108 - Protein Biochemistry Lab (A) FA1948 30 69.0% 44.8% 5.33 B+ (3.38) B+ (3.39)
Ghosh, Gourisankar CHEM 108 - Protein Biochemistry Lab (B) FA1948 23 86.4% 54.5% 5.20 B+ (3.48) B+ (3.36)
Mishanina, Tatiana V CHEM 109 - Recombinant DNA Laboratory (A) FA1935 15 100.0% 92.9% 7.79 B+ (3.36) B+ (3.42)
Mrse, Anthony Adrian CHEM 11 - The Periodic Table (A) FA19297 141 86.2% 93.1% 3.83 B (3.02) B- (2.84)
Herzik, Mark Anthony CHEM 114A - Biochemical Structure&Function (A) FA19223 104 75.8% 78.9% 8.44 B- (2.89) B- (3.00)
Rinehart, Jeffrey Dennis CHEM 120A - Inorganic Chemistry I (A) FA19299 139 87.6% 97.7% 7.28 B (3.17) B- (2.93)
Yuen Zhou, Joel CHEM 126A - Phys Biochem: Thermodynamics (A) FA19201 144 65.7% 88.7% 8.60 B- (2.88) B- (2.88)
Sinha, Amitabha CHEM 130 - Chem Physics: Quantum Mech (A) FA19104 38 52.6% 60.5% 9.71 B- (2.92) C+ (2.49)
Esko, Jeffrey D. CHEM 142 - Intro to Glycosciences (A) FA1921 8 100.0% 100.0% 4.00 B+ (3.38) A- (3.89)
Godula, Kamil CHEM 142 - Intro to Glycosciences (A) FA1921 8 100.0% 100.0% 4.00 B+ (3.38) A- (3.89)
Ternansky, Robert J. CHEM 143C - Organic Chemistry Laboratory (A) FA1960 28 100.0% 96.2% 5.35 B+ (3.60) B (3.29)
Theodorakis, Emmanuel CHEM 152 - Synthetic Methods/Organic Chem (A) FA1935 17 100.0% 100.0% 4.97 B (3.27) B (3.25)
Tor, Yitzhak CHEM 154 - Mechanisms/Organic Reactions (A) FA1952 21 95.0% 100.0% 6.71 B (3.11) B (3.23)
Slade, Jonathan CHEM 171 - Environmental Chemistry I (A) FA19113 62 81.0% 76.8% 3.33 B+ (3.38) B (3.27)
Hoeger, Carl CHEM 4 - Basic Chemistry (A) FA19343 183 75.3% 74.9% 6.29 C+ (2.55) B- (2.83)
Oconnor, Joseph M. CHEM 40A - Organic Chemistry I (A) FA19300 159 71.8% 71.6% 8.69 B- (2.98) C+ (2.49)
Oconnor, Joseph M. CHEM 40A - Organic Chemistry I (B) FA19112 51 79.2% 81.3% 8.20 B- (2.85) C+ (2.44)
Yang, Jerry CHEM 40A - Organic Chemistry I (C) FA19144 79 76.6% 79.2% 8.71 B- (2.96) C+ (2.66)
Albizati, Kim F. CHEM 40A - Organic Chemistry I (D) FA19404 210 85.8% 96.4% 7.94 B (3.09) C+ (2.66)
Perrin, Charles L. CHEM 40A - Organic Chemistry I (E) FA19294 140 70.7% 68.9% 8.03 B- (2.88) C+ (2.46)
Weizman, Haim CHEM 40B - Organic Chemistry II (A) FA19307 163 80.1% 92.9% 8.15 B- (2.83) B- (2.71)
Ternansky, Robert J. CHEM 40C - Organic Chemistry III (A) FA19135 59 76.4% 87.3% 7.98 B- (2.94) B- (2.70)
Lam, Tin Yiu CHEM 43A - Organic Chemistry Laboratory (A) FA19306 159 57.2% 70.0% 7.93 B (3.24) B (3.07)
Lam, Tin Yiu CHEM 43A - Organic Chemistry Laboratory (B) FA19283 126 69.4% 77.5% 7.87 B+ (3.32) B (3.12)
Pomeroy, Robert S. CHEM 6A - General Chemistry I (A) FA19180 87 87.5% 80.5% 6.80 B- (2.95) C+ (2.67)
Schnoebelen, Carly Lynn CHEM 6A - General Chemistry I (B) FA19363 210 96.5% 93.3% 5.19 B (3.23) B- (2.88)
Brydges, Stacey CHEM 6A - General Chemistry I (C) FA19411 250 84.5% 89.4% 6.45 B (3.10) B- (2.98)
Young, Mark CHEM 6A - General Chemistry I (D) FA19150 78 75.3% 62.5% 6.50 B- (2.82) B- (2.77)
Brydges, Stacey CHEM 6A - General Chemistry I (E) FA19411 235 87.2% 85.6% 6.65 B- (2.98) B- (2.92)
Bussey, Thomas J CHEM 6A - General Chemistry I (F) FA19410 215 95.0% 96.5% 5.90 B (3.16) B- (2.84)
Young, Mark CHEM 6A - General Chemistry I (G) FA1985 46 56.8% 55.8% 5.64 C+ (2.65) B- (2.75)
Hoeger, Carl CHEM 6A - General Chemistry I (H) FA19389 211 87.2% 83.2% 6.14 B- (2.98) B (3.01)
Albizati, Kim F. CHEM 6A - General Chemistry I (J) FA19123 78 98.6% 98.6% 4.94 B+ (3.54) B (3.10)
Tauber, Michael CHEM 6AH - Honors General Chemistry I (A) FA19106 67 61.5% 83.1% 7.85 B (3.09) B (3.13)
Crowell, John E CHEM 6B - General Chemistry II (A) FA19193 105 58.6% 51.5% 7.35 B- (2.74) B- (2.75)
Bussey, Thomas J CHEM 6C - General Chemistry III (A) FA19392 220 85.6% 94.5% 7.23 B- (2.92) C+ (2.42)
Leigh, Brian CHEM 7L - General Chemistry Laboratory (A) FA19354 204 87.2% 98.9% 6.74 B (3.20) B (3.00)
Leigh, Brian CHEM 7L - General Chemistry Laboratory (B) FA19347 182 88.3% 98.2% 6.14 B (3.21) B (3.01)
Bussey, Thomas J CHEM 87 - Freshman Seminar (A) FA196 3 100.0% 100.0% 1.83 N/A N/A
Bussey, Thomas J CHEM 96 - Introductn to Teaching Science (A) FA198 5 100.0% 100.0% 3.30 B+ (3.33) N/A
Bussey, Thomas J CHEM 114A - Biochemical Structure&Function (A) S21965 11 90.0% 90.0% 10.70 A- (3.70) B- (2.87)
Kim, John Hyun Joon CHEM 40A - Organic Chemistry I (A) S21984 54 96.3% 100.0% 9.75 B+ (3.37) B- (2.96)
Klosterman, Jeremy K CHEM 40B - Organic Chemistry II (A) S21954 14 64.3% 76.9% 11.93 B- (2.92) C+ (2.53)
Klosterman, Jeremy K CHEM 40C - Organic Chemistry III (A) S21954 24 78.3% 82.6% 9.46 B- (2.82) C+ (2.67)
Bussey, Thomas J CHEM 6A - General Chemistry I (A) S21985 35 100.0% 96.7% 6.63 B+ (3.52) B- (2.86)
Berman, Judd Moss CHEM 6B - General Chemistry II (A) S21941 14 92.9% 78.6% 8.50 B+ (3.36) C+ (2.51)
Schnoebelen, Carly Lynn CHEM 6C - General Chemistry III (A) S219108 36 86.1% 91.7% 6.44 B (3.23) B- (2.80)
Berg, Kyle Robert CHEM 11 - The Periodic Table (A) S11928 20 84.2% 100.0% 6.80 B+ (3.33) B (3.19)
Peacock, Riley CHEM 40A - Organic Chemistry I (A) S11993 84 85.7% 90.5% 10.43 B (3.04) B- (2.76)
Weizman, Haim CHEM 40B - Organic Chemistry II (A) S11988 24 79.2% 91.3% 8.17 B- (2.88) B- (2.75)
Ternansky, Robert J. CHEM 40C - Organic Chemistry III (A) S11943 13 100.0% 92.3% 11.88 B- (2.92) B- (2.82)
Weizman, Haim CHEM 43A - Organic Chemistry Laboratory (A) S119142 37 65.7% 70.6% 10.28 B (3.03) B (3.04)
Hoeger, Carl CHEM 6A - General Chemistry I (A) S11956 13 75.0% 75.0% 9.33 B- (2.83) B- (2.84)
Leigh, Brian CHEM 6B - General Chemistry II (A) S11968 22 90.9% 100.0% 9.41 B- (2.86) B- (2.84)
Hoeger, Carl CHEM 6C - General Chemistry III (A) S11975 23 85.7% 81.0% 9.17 B- (2.95) B (3.02)
Leigh, Brian CHEM 7L - General Chemistry Laboratory (A) S11992 32 80.6% 93.5% 7.50 B (3.23) B (3.00)
Slade, Jonathan CHEM 100A - Analytical Chemistry Lab (A) SP1994 42 81.0% 97.6% 8.50 B (3.26) B+ (3.45)
Pomeroy, Robert S. CHEM 100B - Instrumental Chemistry Lab (A) SP1930 13 84.6% 84.6% 8.50 B- (2.77) B+ (3.33)
Pomeroy, Robert S. CHEM 100B - Instrumental Chemistry Lab (B) SP1923 13 75.0% 91.7% 9.83 B+ (3.33) B+ (3.33)
Sinha, Amitabha CHEM 105A - Physical Chemistry Laboratory (A) SP1938 15 76.9% 100.0% 10.65 B (3.08) B+ (3.42)
Sinha, Amitabha CHEM 105A - Physical Chemistry Laboratory (B) SP1938 17 87.5% 93.8% 8.90 B+ (3.33) B+ (3.42)
Jennings, Patricia A. CHEM 108 - Protein Biochemistry Lab (A) SP1946 18 94.1% 58.8% 6.50 B+ (3.41) B+ (3.68)
Jennings, Patricia A. CHEM 108 - Protein Biochemistry Lab (B) SP1938 17 76.5% 76.5% 7.44 B+ (3.53) B+ (3.68)
Wang, Wei CHEM 11 - The Periodic Table (A) SP19276 159 80.5% 80.5% 4.12 B (3.21) B (3.05)
Debelouchina, Galia T CHEM 113 - Biophysical Chem of Macromolec (A) SP1928 8 87.5% 87.5% 7.75 A (4.00) A- (3.91)
Komives, Elizabeth A CHEM 113 - Biophysical Chem of Macromolec (A) SP1928 8 87.5% 87.5% 7.75 A (4.00) A- (3.91)
Opella, Stanley J CHEM 114A - Biochemical Structure&Function (A) SP19103 77 86.8% 71.1% 4.24 B+ (3.58) B (3.19)
Joseph, Simpson CHEM 114C - Biosynthesis of Macromolecules (A) SP19252 103 71.3% 72.3% 7.09 B (3.11) C+ (2.50)
Sailor, Michael Joseph CHEM 120B - Inorganic Chemistry II (A) SP1975 34 93.5% 96.8% 6.18 B (3.29) B (3.17)
Schimpf, Alina M CHEM 123 - Advanced Inorganic Chem Lab (A) SP1914 4 100.0% 100.0% 6.50 A- (3.75) N/A
Crowell, John E CHEM 126 - Physical Chem: Quantum Mech (A) SP1964 22 63.6% 59.1% 9.14 B (3.05) B- (2.98)
Yuen Zhou, Joel CHEM 127 - Physical Chem: Thermodynamics (A) SP19165 107 77.4% 88.7% 8.12 B (3.09) B- (2.95)
Xiong, Wei CHEM 132 - Chem Physics: Stat Thermo II (A) SP1980 27 70.4% 92.3% 8.04 C+ (2.62) B- (2.78)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Lab II (A) SP19129 62 75.4% 54.4% 7.45 B (3.00) B (3.25)
Weizman, Haim CHEM 151 - Molecules That Changed World (A) SP1977 28 96.2% 96.3% 3.19 B+ (3.54) B+ (3.48)
Burkart, Michael D CHEM 157 - Bioorganic & Natural Prod Chem (A) SP1939 25 100.0% 100.0% 5.17 B+ (3.30) B (3.26)
Devaraj, Neal Krishna CHEM 168 - Drug Synthesis and Design (A) SP1998 48 91.7% 95.8% 3.99 B (3.30) B (3.10)
Prather, Kimberly A CHEM 173 - Atmospheric Chemistry (A) SP1964 24 91.3% 82.6% 6.07 B- (2.82) B (3.15)
Dickson, Andrew Gilmore CHEM 174 - Chem Prin of Marine Systems (A) SP1926 12 63.6% 63.6% 6.86 B- (2.73) B (3.23)
Bussey, Thomas J CHEM 188 - Capstone Sem in Science Eductn (A) SP1911 3 100.0% 100.0% 3.83 A (4.00) N/A
Albizati, Kim F. CHEM 40A - Organic Chemistry I (A) SP19245 96 91.0% 98.9% 6.54 B (3.00) C+ (2.67)
Weizman, Haim CHEM 40B - Organic Chemistry II (A) SP19301 125 81.2% 91.2% 7.44 B- (2.88) B- (2.86)
Siegel, Dionicio R. CHEM 40B - Organic Chemistry II (B) SP19301 140 90.9% 96.2% 6.11 B (3.13) B (3.10)
Ternansky, Robert J. CHEM 40C - Organic Chemistry III (A) SP19142 65 75.9% 92.9% 8.15 B- (2.91) B- (2.72)
Hoeger, Carl CHEM 40C - Organic Chemistry III (B) SP19368 135 65.1% 73.0% 8.75 B- (2.88) B- (2.82)
Tor, Yitzhak CHEM 40CH - Honors Organic Chemistry III (A) SP1995 49 95.7% 97.8% 6.54 B+ (3.67) B+ (3.55)
Klosterman, Jeremy K CHEM 43A - Organic Chemistry Laboratory (A) SP19244 216 74.3% 77.6% 8.11 B (3.23) B (3.14)
Klosterman, Jeremy K CHEM 43A - Organic Chemistry Laboratory (B) SP19215 195 77.1% 79.2% 8.09 B+ (3.34) B (3.14)
Deshmukh, Lalit CHEM 6A - General Chemistry I (A) SP19238 145 80.0% 80.6% 5.34 B- (2.92) C (2.17)
Young, Mark CHEM 6B - General Chemistry II (A) SP19336 165 72.4% 58.2% 6.50 B- (2.75) C+ (2.62)
Crowell, John E CHEM 6B - General Chemistry II (B) SP19181 66 59.7% 42.6% 7.05 B- (2.77) C+ (2.45)
Debelouchina, Galia T CHEM 6C - General Chemistry III (A) SP19394 315 93.6% 98.1% 5.41 B+ (3.32) B (3.15)
Brydges, Stacey CHEM 6C - General Chemistry III (B) SP19422 215 87.3% 93.6% 5.58 B (3.28) B (3.14)
Lam, Tin Yiu CHEM 6C - General Chemistry III (C) SP19417 222 84.0% 88.9% 6.17 B (3.17) B- (2.88)
Hoeger, Carl CHEM 6C - General Chemistry III (E) SP19184 101 81.9% 75.3% 7.36 B- (2.90) B- (2.82)
Bussey, Thomas J CHEM 6C - General Chemistry III (F) SP1988 47 91.3% 100.0% 5.37 B (3.15) B- (2.97)
Kubiak, Clifford Paul CHEM 6CH - Honors General Chemistry III (A) SP1959 31 83.3% 90.0% 6.44 B+ (3.42) B (3.28)
Schnoebelen, Carly Lynn CHEM 7L - General Chemistry Laboratory (A) SP19277 157 96.7% 96.0% 4.54 A- (3.81) A- (3.80)
Leigh, Brian CHEM 7L - General Chemistry Laboratory (B) SP19327 172 89.1% 98.2% 6.89 B (3.22) B (3.05)
Brydges, Stacey CHEM 7LM - General Chemistry Lab - Majors (A) SP1995 53 82.7% 98.1% 7.67 B+ (3.62) A- (3.73)
Leigh, Brian CHEM 87 - Freshman Seminar (A) SP1915 11 100.0% 100.0% 0.90 A (4.00) N/A
Makale, Milan Theodore CHEM 93 - Cancer Therapeutic/Diagnostic (A) SP1926 8 100.0% 100.0% 1.93 A (4.00) B+ (3.51)
Bussey, Thomas J CHEM 96 - Introductn to Teaching Science (A) SP1923 10 100.0% 100.0% 3.61 A- (3.75) B+ (3.58)
Brydges, Stacey CHEM 1 - Scope of Chem and Biochem (A) WI1911 8 100.0% 100.0% 1.36 A (4.00) N/A
Pomeroy, Robert S. CHEM 100A - Analytical Chemistry Lab (A) WI19130 52 81.6% 87.0% 8.85 B (3.25) B (3.18)
Pomeroy, Robert S. CHEM 100B - Instrumental Chemistry Lab (A) WI1929 11 90.0% 100.0% 9.50 B+ (3.60) B+ (3.33)
Young, Mark CHEM 105A - Physical Chemistry Laboratory (A) WI1940 13 60.0% 60.0% 11.50 B+ (3.50) B- (2.86)
Young, Mark CHEM 105A - Physical Chemistry Laboratory (B) WI1924 9 37.5% 37.5% 7.25 B (3.13) B- (2.86)
McHugh, Colleen A CHEM 109 - Recombinant DNA Laboratory (A) WI1944 20 94.4% 100.0% 10.82 B (3.16) B+ (3.44)
McHugh, Colleen A CHEM 109 - Recombinant DNA Laboratory (B) WI1922 11 100.0% 100.0% 9.23 B+ (3.36) B+ (3.44)
Komives, Elizabeth A CHEM 114B - Biochem Energetics&Metabolism (A) WI19265 120 99.1% 99.1% 7.58 B+ (3.50) B (3.24)
Komor, Alexis C CHEM 116 - Chemical Biology (A) WI194 3 100.0% 100.0% 4.50 C+ (2.33) N/A
Amaro, Rommie E CHEM 118 - Pharmacology and Toxicology (A) WI19118 59 96.2% 90.6% 5.73 B+ (3.45) B (3.14)
Huang, Xuemei CHEM 12 - Molecules and Reactions (A) WI1960 25 77.3% 86.4% 4.95 B+ (3.35) B- (2.96)
Figueroa, Joshua CHEM 120A - Inorganic Chemistry I (A) WI19206 142 92.1% 95.0% 7.00 B (3.16) B- (2.83)
Cohen, Seth M CHEM 125 - Bioinorganic Chemistry (A) WI1916 7 85.7% 100.0% 4.21 B- (2.71) N/A
Tezcan, Faik CHEM 125 - Bioinorganic Chemistry (A) WI1915 7 85.7% 100.0% 4.21 B- (2.71) N/A
Paesani, Francesco CHEM 126 - Physical Chem: Quantum Mech (A) WI19172 75 77.5% 93.1% 8.50 B- (2.87) B- (2.70)
Weare, John H. CHEM 131 - Chem Physics: Stat Thermo I (A) WI1992 40 24.3% 16.2% 7.36 C (2.28) B- (2.98)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Lab II (A) WI1989 36 88.6% 82.4% 7.70 B (3.06) B+ (3.37)
Schmidt, Valerie A CHEM 155 - Synthesis of Complex Molecules (A) WI198 4 100.0% 100.0% 3.00 B+ (3.50) N/A
Yang, Jerry CHEM 156 - Struct&Properties/Organc Molec (A) WI197 3 100.0% 100.0% 7.83 B+ (3.67) N/A
Perrin, Charles L. CHEM 158 - Applied Spectroscopy (A) WI1912 3 100.0% 100.0% 5.83 B+ (3.50) N/A
McHugh, Colleen A CHEM 164 - Structural Biology of Viruses (A) WI1926 10 70.0% 70.0% 5.70 B+ (3.30) B (3.08)
Amaro, Rommie E CHEM 167 - Medicinal Chemistry (A) WI19110 37 79.4% 76.5% 6.03 B (3.18) B- (2.96)
Thiemens, Mark H CHEM 172 - Environmental Chemistry II (A) WI1946 19 84.2% 84.2% 6.39 B+ (3.47) B (3.27)
Bussey, Thomas J CHEM 187 - Foundn of Teach&Learn Science (A) WI1914 6 100.0% 100.0% 4.50 A (4.00) N/A
Newsam, John CHEM 194 - Special Topics in Chemistry (A) WI1915 7 100.0% 100.0% 2.21 A- (3.86) N/A
Bertrand, Guy CHEM 40A - Organic Chemistry I (A) WI19359 156 92.2% 97.9% 6.44 B (3.22) B- (2.89)
Hoeger, Carl CHEM 40A - Organic Chemistry I (B) WI19189 80 82.4% 77.0% 7.78 B- (2.83) C+ (2.59)
Ternansky, Robert J. CHEM 40B - Organic Chemistry II (A) WI1958 32 63.3% 75.9% 8.83 C+ (2.60) C+ (2.69)
Weizman, Haim CHEM 40B - Organic Chemistry II (B) WI19351 163 80.5% 92.7% 7.61 B- (2.94) B- (2.99)
Schmidt, Valerie A CHEM 40B - Organic Chemistry II (C) WI19382 333 80.6% 91.5% 8.07 B- (2.93) C+ (2.63)
Hoeger, Carl CHEM 40B - Organic Chemistry II (D) WI19205 90 85.2% 88.6% 8.35 B- (2.90) C+ (2.70)
Weizman, Haim CHEM 40BH - Honors Organic Chemistry II (A) WI1967 42 97.4% 97.4% 7.71 B+ (3.53) B+ (3.50)
Godula, Kamil CHEM 40C - Organic Chemistry III (A) WI19189 169 86.9% 96.4% 7.58 B (3.08) B- (2.89)
Klosterman, Jeremy K CHEM 43A - Organic Chemistry Laboratory (A) WI19266 223 73.9% 78.8% 8.07 B (3.14) B- (2.88)
Klosterman, Jeremy K CHEM 43A - Organic Chemistry Laboratory (B) WI19179 138 69.9% 69.1% 8.33 B (3.07) B- (2.88)
Tezcan, Faik CHEM 6A - General Chemistry I (A) WI19248 129 88.6% 85.8% 5.95 B- (2.82) C (2.26)
Albizati, Kim F. CHEM 6A - General Chemistry I (B) WI19425 208 88.6% 85.9% 5.37 B (3.18) C+ (2.68)
Brydges, Stacey CHEM 6B - General Chemistry II (A) WI19411 237 91.2% 88.8% 5.87 B (3.23) B (3.01)
Kummel, Andrew C CHEM 6B - General Chemistry II (B) WI19246 172 82.1% 78.4% 7.06 B (3.10) B- (2.78)
Komor, Alexis C CHEM 6B - General Chemistry II (C) WI19178 158 83.2% 83.8% 4.99 B (3.13) B- (2.79)
Crowell, John E CHEM 6B - General Chemistry II (D) WI19125 65 68.9% 57.4% 6.60 B (3.03) B- (2.75)
Lam, Tin Yiu CHEM 6B - General Chemistry II (E) WI19410 254 72.8% 71.8% 6.44 B- (2.99) B- (2.83)
Young, Mark CHEM 6B - General Chemistry II (F) WI19182 117 65.5% 51.4% 7.06 B- (2.85) B- (2.73)
Schnoebelen, Carly Lynn CHEM 6B - General Chemistry II (G) WI19244 153 93.2% 96.6% 4.68 B+ (3.32) B- (2.72)
Paesani, Francesco CHEM 6BH - Honors General Chemistry II (A) WI1970 53 85.7% 93.9% 7.26 B (3.24) B+ (3.39)
Ghosh, Partho CHEM 6C - General Chemistry III (A) WI19185 98 77.9% 81.5% 6.90 B- (2.78) C+ (2.48)
Leigh, Brian CHEM 7L - General Chemistry Laboratory (A) WI19257 139 80.0% 96.1% 6.12 B (3.13) B (3.02)
Leigh, Brian CHEM 7L - General Chemistry Laboratory (B) WI19306 139 86.4% 99.2% 6.23 B (3.13) B (3.02)
Brydges, Stacey CHEM 87 - Freshman Seminar (A) WI1918 15 100.0% 100.0% 0.90 A (4.00) N/A
Leigh, Brian CHEM 100A - Analytical Chemistry Lab (A) FA18142 60 84.5% 93.1% 10.30 B (3.14) B (3.05)
Crowell, John E CHEM 105A - Physical Chemistry Laboratory (A) FA1833 8 100.0% 75.0% 10.75 B+ (3.50) B+ (3.48)
Crowell, John E CHEM 105A - Physical Chemistry Laboratory (B) FA1821 7 85.7% 100.0% 10.79 B (3.29) B+ (3.48)
Ghosh, Gourisankar CHEM 108 - Protein Biochemistry Lab (A) FA1847 32 93.5% 86.7% 4.76 A- (3.71) B+ (3.61)
Ghosh, Gourisankar CHEM 108 - Protein Biochemistry Lab (B) FA1848 19 87.5% 86.7% 4.38 A- (3.82) B+ (3.61)
Mrse, Anthony Adrian CHEM 11 - The Periodic Table (A) FA18250 117 85.8% 91.9% 4.68 B (3.20) B- (2.76)
Toor, Navtej CHEM 114A - Biochemical Structure&Function (A) FA18286 142 76.5% 70.9% 6.06 B (3.16) B (3.12)
Ghosh, Gourisankar CHEM 114D - Molecular & Cellular Biochem (A) FA1820 8 87.5% 87.5% 6.25 B+ (3.38) B+ (3.35)
Galperin, Michael CHEM 127 - Physical Chem: Thermodynamics (A) FA18104 39 43.2% 44.4% 9.20 B- (2.76) C+ (2.57)
Sinha, Amitabha CHEM 130 - Chem Physics: Quantum Mech (A) FA18111 47 53.3% 64.4% 10.02 C+ (2.50) C+ (2.51)
Esko, Jeffrey D. CHEM 142 - Intro to Glycosciences (A) FA1816 5 80.0% 100.0% 4.10 B- (2.80) N/A
Godula, Kamil CHEM 142 - Intro to Glycosciences (A) FA1814 5 80.0% 100.0% 4.10 B- (2.80) N/A
Ternansky, Robert J. CHEM 143C - Organic Chemistry Laboratory (A) FA1863 25 87.5% 91.3% 6.58 B+ (3.50) B+ (3.38)
Weizman, Haim CHEM 143D - Molecular Design & Synthesis (A) FA1816 7 100.0% 100.0% 9.93 B+ (3.43) N/A
Theodorakis, Emmanuel CHEM 152 - Synthetic Methods/Organic Chem (A) FA1859 21 100.0% 100.0% 4.50 B (3.10) B (3.23)
Tor, Yitzhak CHEM 154 - Mechanisms/Organic Reactions (A) FA1864 17 92.9% 100.0% 7.17 B+ (3.36) B+ (3.49)
Grassian, Vicki Helene CHEM 171 - Environmental Chemistry I (A) FA1877 32 89.7% 89.7% 4.43 B+ (3.31) B- (2.98)
Sullivan, Michael N CHEM 171 - Environmental Chemistry I (A) FA1880 31 89.3% 82.1% 4.50 B+ (3.32) B- (2.98)
Hoeger, Carl CHEM 4 - Basic Chemistry (A) FA18332 188 75.0% 75.9% 6.18 C+ (2.60) B- (2.96)
Oconnor, Joseph M. CHEM 40A - Organic Chemistry I (A) FA18280 145 71.1% 73.6% 9.15 B- (2.98) C+ (2.52)
Hirschauer, Sonia S CHEM 40A - Organic Chemistry I (B) FA18227 130 84.4% 98.3% 7.42 B- (2.92) C+ (2.62)
Klosterman, Jeremy K CHEM 40A - Organic Chemistry I (C) FA18126 96 91.6% 94.7% 7.64 B- (2.97) B- (2.79)
Perrin, Charles L. CHEM 40A - Organic Chemistry I (D) FA18232 100 75.0% 72.8% 8.61 B- (2.98) C+ (2.63)
Hoeger, Carl CHEM 40A - Organic Chemistry I (E) FA18341 167 78.6% 81.6% 9.47 B (3.01) B (3.03)
Theodorakis, Emmanuel CHEM 40B - Organic Chemistry II (A) FA18360 134 81.0% 85.1% 7.64 B- (2.72) C+ (2.42)
Albizati, Kim F. CHEM 40C - Organic Chemistry III (A) FA18352 115 78.5% 93.3% 8.63 B- (2.97) C+ (2.68)
Ternansky, Robert J. CHEM 43A - Organic Chemistry Laboratory (A) FA18460 194 80.9% 93.5% 7.69 B (3.23) B (3.11)
Hirschauer, Sonia S CHEM 6A - General Chemistry I (A) FA18281 211 92.0% 96.4% 5.95 B- (2.97) C+ (2.67)
Zid, Brian M CHEM 6A - General Chemistry I (B) FA18413 244 94.0% 92.7% 5.08 B (3.20) B (3.11)
Brydges, Stacey CHEM 6A - General Chemistry I (C) FA18416 244 87.9% 90.5% 6.95 B (3.10) B- (2.83)
Lam, Tin Yiu CHEM 6A - General Chemistry I (D) FA18389 235 96.4% 95.9% 5.40 B (3.29) B- (3.00)
Lam, Tin Yiu CHEM 6A - General Chemistry I (E) FA18352 214 91.5% 92.0% 5.45 B (3.20) B- (3.00)
Bussey, Thomas J CHEM 6A - General Chemistry I (F) FA18409 251 93.2% 95.7% 5.94 B (3.22) B (3.04)
Crowell, John E CHEM 6A - General Chemistry I (G) FA18186 105 67.3% 40.8% 6.54 B- (2.82) B- (2.79)
Albizati, Kim F. CHEM 6A - General Chemistry I (H) FA18407 244 93.4% 92.4% 5.04 B+ (3.50) B- (2.77)
Swift, Robert Vernon CHEM 6A - General Chemistry I (I) FA18140 80 89.2% 89.2% 5.11 B (3.17) C+ (2.40)
Tauber, Michael CHEM 6AH - Honors General Chemistry I (A) FA18114 92 77.5% 86.2% 8.08 B (3.09) B (3.17)
Young, Mark CHEM 6B - General Chemistry II (A) FA18228 116 73.5% 77.9% 6.80 B- (2.83) C+ (2.63)
Bussey, Thomas J CHEM 6C - General Chemistry III (A) FA18395 202 92.2% 99.5% 6.70 B (3.01) C+ (2.49)
Kim, Judy E. CHEM 7L - General Chemistry Laboratory (A) FA18285 149 67.6% 74.1% 6.82 B- (2.99) B- (2.87)
Kim, Judy E. CHEM 7L - General Chemistry Laboratory (B) FA18335 156 64.9% 72.1% 7.22 B- (2.99) B- (2.87)
Bussey, Thomas J CHEM 87 - Freshman Seminar (A) FA1817 9 100.0% 100.0% 0.75 A (4.00) N/A
Bussey, Thomas J CHEM 96 - Introductn to Teaching Science (A) FA1814 8 100.0% 100.0% 4.50 B+ (3.63) N/A
Bussey, Thomas J CHEM 114A - Biochemical Structure&Function (A) S21861 17 100.0% 100.0% 8.03 B (3.29) B- (2.87)
Klosterman, Jeremy K CHEM 40A - Organic Chemistry I (A) S21856 34 93.9% 97.0% 10.86 B (3.00) B- (2.73)
Lacoske, Michelle Hill CHEM 40B - Organic Chemistry II (A) S218119 23 81.8% 95.5% 11.59 B (3.09) B- (2.86)
Ternansky, Robert J. CHEM 40C - Organic Chemistry III (A) S21856 13 83.3% 75.0% 13.58 B- (2.83) B- (2.83)
Bussey, Thomas J CHEM 6A - General Chemistry I (A) S218134 53 97.9% 97.9% 7.02 B+ (3.59) B (3.18)
Johnson, Christina A CHEM 6B - General Chemistry II (A) S21844 11 100.0% 100.0% 9.95 B (3.18) B- (2.82)
Johnson, Christina A CHEM 6C - General Chemistry III (A) S21865 19 94.1% 94.1% 11.17 B (3.17) B- (2.92)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Lab II (A) S11843 16 93.8% 93.8% 8.63 B (3.07) B+ (3.30)
Klosterman, Jeremy K CHEM 40A - Organic Chemistry I (A) S11878 20 80.0% 70.0% 12.10 B- (2.95) B- (2.76)
Weizman, Haim CHEM 40B - Organic Chemistry II (A) S118144 31 80.0% 86.7% 11.03 B- (2.72) B- (2.88)
Klosterman, Jeremy K CHEM 40C - Organic Chemistry III (A) S11847 13 76.9% 92.3% 14.04 B+ (3.31) B- (2.87)
Weizman, Haim CHEM 43A - Organic Chemistry Laboratory (A) S118114 22 60.0% 95.0% 10.10 B (3.25) B (3.03)
Katz, Faith Erin Heffernan CHEM 6A - General Chemistry I (A) S11843 25 84.0% 87.5% 5.70 B (3.04) B (3.23)
Hoeger, Carl CHEM 6B - General Chemistry II (A) S11849 24 77.3% 77.3% 9.80 B- (2.82) B- (2.85)
Hoeger, Carl CHEM 6C - General Chemistry III (A) S11878 22 71.4% 76.2% 11.36 B- (2.71) B (3.10)
Kim, Judy E. CHEM 7L - General Chemistry Laboratory (A) S11864 22 68.2% 81.8% 10.23 B- (2.95) B- (2.97)
Kim, Judy E. CHEM 7L - General Chemistry Laboratory (B) S11850 12 63.6% 90.9% 8.33 C+ (2.67) B- (2.97)
Tauber, Michael CHEM 7L - General Chemistry Laboratory (C) S11865 17 71.4% 64.3% 10.63 B (3.13) B- (2.97)
Tauber, Michael CHEM 7L - General Chemistry Laboratory (D) S11866 15 100.0% 71.4% 8.35 B (3.07) B- (2.97)
Pomeroy, Robert S. CHEM 100A - Analytical Chemistry Lab (A) SP1887 40 80.6% 97.1% 9.94 B (3.22) B (3.04)
Pomeroy, Robert S. CHEM 100B - Instrumental Chemistry Lab (A) SP1830 11 70.0% 80.0% 8.30 B+ (3.30) B (3.02)
Sinha, Amitabha CHEM 105A - Physical Chemistry Laboratory (A) SP1877 27 73.1% 92.3% 8.96 B+ (3.42) B+ (3.32)
Jennings, Patricia A. CHEM 108 - Protein Biochemistry Lab (A) SP1848 18 72.2% 38.9% 8.28 A- (3.72) B+ (3.70)
Jennings, Patricia A. CHEM 108 - Protein Biochemistry Lab (B) SP1831 11 81.8% 36.4% 6.68 A- (3.73) B+ (3.70)
Wang, Wei CHEM 11 - The Periodic Table (A) SP18242 197 84.2% 88.8% 3.92 B (3.27) B (3.13)
Debelouchina, Galia T CHEM 113 - Biophysical Chem of Macromolec (B) SP1821 9 88.9% 100.0% 6.50 A- (3.89) A (4.00)
Komives, Elizabeth A CHEM 113 - Biophysical Chem of Macromolec (B) SP1821 9 88.9% 100.0% 6.50 A- (3.89) A (4.00)
Joseph, Simpson CHEM 114C - Biosynthesis of Macromolecules (A) SP18214 67 76.9% 75.0% 7.39 B (3.22) C+ (2.54)
Amaro, Rommie E CHEM 118 - Pharmacology and Toxicology (A) SP18194 74 87.5% 80.6% 5.77 B+ (3.61) B+ (3.42)
Sailor, Michael Joseph CHEM 123 - Advanced Inorganic Chem Lab (A) SP1814 9 88.9% 100.0% 3.17 B+ (3.67) N/A
Crowell, John E CHEM 126 - Physical Chem: Quantum Mech (A) SP1857 16 64.3% 76.9% 9.30 B (3.00) B- (2.99)
Yuen Zhou, Joel CHEM 127 - Physical Chem: Thermodynamics (A) SP1871 53 75.5% 94.3% 6.81 B (3.11) B+ (3.47)
Opella, Stanley J CHEM 13 - Chemistry of Life (A) SP1860 25 62.5% 66.7% 3.94 B- (2.80) C+ (2.59)
Xiong, Wei CHEM 132 - Chem Physics: Stat Thermo II (A) SP1872 26 84.6% 96.2% 6.65 B (3.27) B (3.06)
Xiong, Wei CHEM 135 - Molecular Spectroscopy (A) SP184 4 75.0% 100.0% 11.50 C+ (2.67) N/A
Ternansky, Robert J. CHEM 143B - Organic Chemistry Lab II (A) SP1877 26 91.3% 75.0% 7.54 B (3.08) B+ (3.38)
Weizman, Haim CHEM 151 - Molecules That Changed World (A) SP1856 21 85.0% 85.0% 2.60 B+ (3.40) B+ (3.47)
Burkart, Michael D CHEM 157 - Bioorganic & Natural Prod Chem (A) SP1845 25 79.2% 87.5% 5.92 B- (2.95) B (3.22)
Baker, Timothy Stanley CHEM 164 - Structural Biology of Viruses (A) SP1815 13 100.0% 100.0% 5.88 B (3.08) N/A
Amaro, Rommie E CHEM 167 - Medicinal Chemistry (A) SP1889 34 94.1% 88.2% 5.89 B+ (3.42) B (3.27)
Kristensen, Louise J CHEM 173 - Atmospheric Chemistry (A) SP1853 18 70.6% 68.8% 4.38 B (3.00) B (3.15)
Dickson, Andrew Gilmore CHEM 174 - Chem Prin of Marine Systems (A) SP1822 9 50.0% 50.0% 3.00 B (3.25) B- (2.87)
Bafna, Vineet CHEM 182 - Biological Databases (A) SP186 3 100.0% 100.0% 11.83 B (3.00) N/A
Gilson, Michael K. CHEM 185 - Intro/Computational Chemistry (B) SP1812 7 100.0% 100.0% 8.21 B (3.29) N/A
Bussey, Thomas J CHEM 188 - Capstone Sem in Science Eductn (A) SP1810 6 100.0% 100.0% 4.10 A (4.00) N/A
Hoeger, Carl CHEM 40A - Organic Chemistry I (A) SP18242 98 77.3% 76.1% 8.28 B- (2.87) B- (2.73)
Weizman, Haim CHEM 40B - Organic Chemistry II (A) SP18386 148 72.7% 82.4% 7.99 B- (2.79) B- (2.75)
Molinski, Tadeusz CHEM 40B - Organic Chemistry II (B) SP18101 35 43.3% 30.0% 8.69 C (2.28) C+ (2.42)
Ternansky, Robert J. CHEM 40C - Organic Chemistry III (A) SP18124 56 90.4% 94.2% 8.62 B (3.15) B- (2.84)
Hoeger, Carl CHEM 40C - Organic Chemistry III (B) SP18261 110 64.4% 76.7% 8.98 B- (2.87) B- (2.86)
Tor, Yitzhak CHEM 40CH - Honors Organic Chemistry III (A) SP1872 34 97.0% 97.0% 7.26 B+ (3.47) B+ (3.44)
Klosterman, Jeremy K CHEM 43A - Organic Chemistry Laboratory (A) SP18194 162 68.1% 46.9% 7.74 B (3.01) B (3.00)
Klosterman, Jeremy K CHEM 43A - Organic Chemistry Laboratory (B) SP18193 161 59.1% 56.6% 7.93 B (3.01) B (3.00)
Zid, Brian M CHEM 6A - General Chemistry I (A) SP18100 41 87.2% 91.9% 6.60 B (3.05) C+ (2.70)
Deshmukh, Lalit CHEM 6A - General Chemistry I (B) SP18102 64 87.3% 90.3% 5.61 B- (2.98) C+ (2.30)
Bussey, Thomas J CHEM 6B - General Chemistry II (A) SP18275 125 89.9% 95.8% 7.19 B- (2.75) C+ (2.40)
Albizati, Kim F. CHEM 6B - General Chemistry II (B) SP18257 118 81.0% 79.8% 6.38 B- (2.97) B- (2.76)
Debelouchina, Galia T CHEM 6C - General Chemistry III (A) SP18250 214 96.7% 98.1% 5.68 B (3.22) B+ (3.33)
Johnson, Christina A CHEM 6C - General Chemistry III (B) SP18319 159 85.4% 92.6% 7.57 B- (2.98) B- (2.78)
Johnson, Christina A CHEM 6C - General Chemistry III (C) SP18361 163 85.4% 88.3% 8.00 B- (2.94) B- (2.78)
Lam, Tin Yiu CHEM 6C - General Chemistry III (D) SP18410 198 88.1% 94.7% 6.60 B (3.25) B- (2.86)
Kubiak, Clifford Paul CHEM 6CH - Honors General Chemistry III (A) SP1872 37 86.1% 80.6% 5.47 B+ (3.49) B (3.23)
Kim, Judy E. CHEM 7L - General Chemistry Laboratory (A) SP18270 125 80.2% 79.2% 7.13 B (3.19) B (3.01)
Kim, Judy E. CHEM 7L - General Chemistry Laboratory (B) SP18270 107 80.0% 82.0% 6.60 B+ (3.44) B (3.01)
Bussey, Thomas J CHEM 96 - Introductn to Teaching Science (A) SP1823 13 100.0% 100.0% 3.12 A (4.00) A- (3.70)
Pena, Ignacio Lopez CHEM 100A - Analytical Chemistry Lab (A) WI1881 52 26.0% 24.5% 12.38 B (3.20) B- (2.84)
Pomeroy, Robert S. CHEM 100B - Instrumental Chemistry Lab (A) WI1823 12 75.0% 91.7% 7.17 B- (2.92) B- (2.87)
Crowell, John E CHEM 105A - Physical Chemistry Laboratory (A) WI1831 12 50.0% 58.3% 9.00 B (3.08) B (3.05)
Crowell, John E CHEM 105A - Physical Chemistry Laboratory (B) WI1812 5 60.0% 80.0% 9.30 B+ (3.60) N/A
Crowell, John E CHEM 105B - Physical Chemistry Laboratory (A) WI187 3 66.7% 100.0% 6.50 B+ (3.33) N/A
McHugh, Colleen A CHEM 109 - Recombinant DNA Laboratory (A) WI1829 9 75.0% 100.0% 11.50 B (3.22) B- (2.98)
Johnson, Christina A CHEM 109 - Recombinant DNA Laboratory (B) WI1841 15 84.6% 100.0% 12.81 B+ (3.31) B (3.21)
Thiemens, Mark H CHEM 111 - Origins of Life & the Universe (A) WI1860 24 81.0% 81.0% 4.40 B+ (3.45) B- (2.94)
Muller, Ulrich K. CHEM 114A - Biochemical Structure&Function (A) WI1890 34 84.4% 87.5% 6.19 B+ (3.41) C+ (2.58)
Komives, Elizabeth A CHEM 114B - Biochem Energetics&Metabolism (A) WI18201 86 92.5% 96.2% 6.70 B+ (3.33) B+ (3.32)
Huang, Xuemei CHEM 12 - Molecules and Reactions (A) WI1873 35 72.7% 84.8% 5.03 B (3.11) B+ (3.33)
Sailor, Michael Joseph CHEM 120B - Inorganic Chemistry II (A) WI18122 54 94.0% 98.0% 5.58 B+ (3.34) B (3.21)
Tezcan, Faik CHEM 125 - Bioinorganic Chemistry (A) WI1816 8 75.0% 100.0% 5.75 B- (2.75) N/A
Paesani, Francesco CHEM 126 - Physical Chem: Quantum Mech (A) WI18163 69 82.1% 98.5% 7.49 B- (2.94) B- (2.83)
Weare, John H. CHEM 131 - Chem Physics: Stat Thermo I (A) WI1885 36 37.1% 25.7% 5.81 B- (2.97) B (3.08)
Esko, Jeffrey D. CHEM 142 - Intro to Glycosciences (A) WI188 4 100.0% 100.0% 5.17 B+ (3.33) N/A
Godula, Kamil CHEM 142 - Intro to Glycosciences (A) WI188 4 100.0% 100.0% 5.17 B+ (3.33) N/A
Ternansky, Robert J. CHEM 143B - Organic Chemistry Lab II (A) WI1894 47 79.1% 79.1% 6.95 B (3.11) B+ (3.41)
Yang, Jerry CHEM 156 - Struct&Properties/Organc Molec (A) WI1811 5 100.0% 100.0% 6.50 B+ (3.60) N/A
Devaraj, Neal Krishna CHEM 168 - Drug Synthesis and Design (A) WI18135 45 85.7% 82.9% 5.14 B+ (3.45) B (3.06)
Pomeroy, Robert S. CHEM 172 - Environmental Chemistry II (A) WI1863 27 92.0% 95.8% 5.62 B- (2.81) B- (2.80)
Bussey, Thomas J CHEM 187 - Foundn of Teach&Learn Science (A) WI1814 7 100.0% 100.0% 4.50 B+ (3.67) N/A
Newsam, John CHEM 194 - Special Topics in Chemistry (A) WI1812 8 87.5% 100.0% 2.50 A (4.00) N/A
Bertrand, Guy CHEM 40A - Organic Chemistry I (A) WI18362 196 93.6% 98.4% 6.05 B+ (3.39) B- (2.84)
Albizati, Kim F. CHEM 40A - Organic Chemistry I (B) WI18340 134 92.1% 96.8% 7.17 B (3.02) C+ (2.69)
Ternansky, Robert J. CHEM 40B - Organic Chemistry II (A) WI18110 69 78.8% 92.3% 9.06 B- (2.84) B- (2.73)
Hoeger, Carl CHEM 40B - Organic Chemistry II (B) WI18168 85 83.8% 96.2% 8.70 B- (2.96) B- (2.81)
Schmidt, Valerie A CHEM 40B - Organic Chemistry II (C) WI18361 327 86.5% 95.7% 8.15 B (3.08) B (3.16)
Weizman, Haim CHEM 40B - Organic Chemistry II (D) WI18272 139 83.5% 91.7% 8.42 B- (2.90) C+ (2.69)
Weizman, Haim CHEM 40BH - Honors Organic Chemistry II (A) WI1854 33 96.9% 96.9% 7.81 B+ (3.44) B+ (3.62)
Godula, Kamil CHEM 40C - Organic Chemistry III (A) WI18201 183 75.4% 87.4% 8.23 B (3.01) B- (2.80)
Klosterman, Jeremy K CHEM 43A - Organic Chemistry Laboratory (A) WI18202 121 73.6% 59.8% 8.34 B (3.23) B- (2.86)
Klosterman, Jeremy K CHEM 43A - Organic Chemistry Laboratory (B) WI18192 114 67.0% 48.6% 8.44 B (3.08) B- (2.86)
Schimpf, Alina M CHEM 6A - General Chemistry I (A) WI18413 318 94.6% 91.7% 5.56 B (3.12) C+ (2.33)
Tezcan, Faik CHEM 6A - General Chemistry I (B) WI18292 199 86.7% 88.6% 5.77 B- (2.76) C+ (2.35)
Komor, Alexis C CHEM 6B - General Chemistry II (A) WI18241 154 80.8% 71.3% 6.30 B- (2.91) C+ (2.53)
Kummel, Andrew C CHEM 6B - General Chemistry II (B) WI18142 81 84.4% 79.2% 7.11 B (3.11) B- (2.78)
Hoeger, Carl CHEM 6B - General Chemistry II (D) WI18306 216 84.1% 78.2% 7.40 B- (2.87) B- (2.91)
Johnson, Christina A CHEM 6B - General Chemistry II (E) WI18412 269 90.4% 91.9% 8.16 B (3.10) B (3.04)
Crowell, John E CHEM 6B - General Chemistry II (F) WI18167 98 75.8% 61.8% 6.19 B (3.11) B- (2.71)
Lam, Tin Yiu CHEM 6B - General Chemistry II (G) WI18380 240 90.1% 93.7% 6.54 B+ (3.32) B (3.07)
Paesani, Francesco CHEM 6BH - Honors General Chemistry II (A) WI1863 38 91.4% 100.0% 6.33 B (3.29) B+ (3.48)
Ghosh, Partho CHEM 6C - General Chemistry III (A) WI18182 104 75.5% 65.3% 7.07 B- (2.92) C+ (2.31)
Cohen, Seth M CHEM 7L - General Chemistry Laboratory (A) WI18313 178 78.2% 91.4% 6.18 B (3.27) B (3.04)
Cohen, Seth M CHEM 7L - General Chemistry Laboratory (B) WI18279 154 78.8% 92.4% 6.55 B+ (3.31) B (3.04)
Pena, Ignacio Lopez CHEM 100A - Analytical Chemistry Lab (A) FA1794 43 41.9% 60.5% 11.12 B- (2.98) B- (2.81)
Crowell, John E CHEM 105A - Physical Chemistry Laboratory (A) FA1741 14 85.7% 100.0% 9.93 B (3.29) B- (2.98)
Ghosh, Gourisankar CHEM 108 - Protein Biochemistry Lab (A) FA1748 24 100.0% 85.0% 3.98 B+ (3.65) B+ (3.60)
Ghosh, Gourisankar CHEM 108 - Protein Biochemistry Lab (B) FA1746 11 100.0% 81.8% 5.23 A- (3.82) B+ (3.60)
Mrse, Anthony Adrian CHEM 11 - The Periodic Table (A) FA17210 89 87.7% 87.7% 5.42 B (3.24) B- (2.79)
Toor, Navtej CHEM 114A - Biochemical Structure&Function (A) FA17233 101 72.2% 57.3% 6.26 B (3.14) B- (2.96)
Ghosh, Gourisankar CHEM 114D - Molecular & Cellular Biochem (A) FA1729 6 83.3% 100.0% 6.50 B+ (3.67) B+ (3.55)
Rinehart, Jeffrey Dennis CHEM 120A - Inorganic Chemistry I (A) FA17250 100 85.6% 95.8% 6.11 B (3.24) B (3.19)
Galperin, Michael CHEM 127 - Physical Chem: Thermodynamics (A) FA17119 48 37.8% 48.9% 7.61 B- (2.76) C+ (2.62)
Sinha, Amitabha CHEM 130 - Chem Physics: Quantum Mech (A) FA1794 41 77.5% 87.5% 7.45 B (3.15) B- (2.76)
Ternansky, Robert J. CHEM 143C - Organic Chemistry Laboratory (A) FA1766 33 83.9% 90.0% 6.13 B- (2.97) B+ (3.40)
Theodorakis, Emmanuel CHEM 152 - Synthetic Methods/Organic Chem (A) FA1759 20 84.2% 84.2% 4.10 B+ (3.45) B (3.15)
Tor, Yitzhak CHEM 154 - Mechanisms/Organic Reactions (A) FA1760 25 79.2% 87.5% 6.83 B (3.17) B (3.11)
Grassian, Vicki Helene CHEM 171 - Environmental Chemistry I (A) FA1780 38 89.5% 94.7% 4.66 B (3.29) B- (2.96)
Ray, Amelia W CHEM 171 - Environmental Chemistry I (A) FA1780 37 89.2% 97.3% 4.66 B (3.27) B- (2.96)
Hoeger, Carl CHEM 4 - Basic Chemistry (A) FA17310 172 76.8% 78.5% 6.78 C+ (2.58) B- (2.92)
Oconnor, Joseph M. CHEM 40A - Organic Chemistry I (A) FA17319 151 84.0% 78.7% 10.49 B- (2.97) C+ (2.53)
Yang, Jerry CHEM 40A - Organic Chemistry I (B) FA17105 45 75.0% 68.2% 8.41 B- (2.98) C+ (2.66)
Klosterman, Jeremy K CHEM 40A - Organic Chemistry I (C) FA17137 63 73.3% 65.0% 8.30 B- (2.76) C+ (2.62)
Perrin, Charles L. CHEM 40A - Organic Chemistry I (D) FA17341 146 73.7% 80.9% 8.31 B- (2.92) C+ (2.45)
Hoeger, Carl CHEM 40A - Organic Chemistry I (E) FA17317 142 81.1% 83.8% 9.63 B (3.06) B (3.02)
Theodorakis, Emmanuel CHEM 40B - Organic Chemistry II (A) FA17135 67 80.0% 86.2% 8.78 B (3.00) C+ (2.67)
Weizman, Haim CHEM 40B - Organic Chemistry II (B) FA17224 85 92.4% 91.1% 7.23 B (3.22) B- (2.79)
Albizati, Kim F. CHEM 40C - Organic Chemistry III (A) FA17277 119 77.7% 92.8% 7.69 B (3.18) B- (2.72)
Ternansky, Robert J. CHEM 43A - Organic Chemistry Laboratory (A) FA17413 230 77.8% 86.2% 7.43 B (3.29) B (3.08)
Bussey, Thomas J CHEM 6A - General Chemistry I (A) FA17404 219 93.1% 95.5% 6.27 B (3.02) B- (2.98)
Lam, Tin Yiu CHEM 6A - General Chemistry I (B) FA17375 212 87.2% 89.8% 5.80 B (3.11) B (3.13)
Lam, Tin Yiu CHEM 6A - General Chemistry I (C) FA17405 259 91.0% 85.2% 5.88 B (3.13) B (3.13)
Johnson, Christina A CHEM 6A - General Chemistry I (D) FA17419 261 95.1% 95.8% 6.85 B (3.21) B (3.05)
Johnson, Christina A CHEM 6A - General Chemistry I (E) FA17418 249 90.0% 92.9% 7.11 B- (2.94) B (3.05)
Ray, Amelia W CHEM 6A - General Chemistry I (F) FA17415 265 97.7% 98.4% 5.50 B+ (3.49) B (3.18)
Crowell, John E CHEM 6A - General Chemistry I (G) FA17205 105 69.7% 48.5% 6.78 B (3.01) B- (2.81)
Holland, Ryan Lynn CHEM 6A - General Chemistry I (I) FA17149 89 90.0% 75.0% 5.32 B+ (3.63) B (3.24)
Tauber, Michael CHEM 6AH - Honors General Chemistry I (A) FA17106 66 59.4% 73.0% 8.50 B- (2.97) B (3.26)
Buyanin, Alex CHEM 6B - General Chemistry II (A) FA17190 90 70.5% 69.0% 7.57 B (3.00) B- (2.71)
Bussey, Thomas J CHEM 6C - General Chemistry III (A) FA17356 175 95.1% 98.1% 7.71 B (3.05) C+ (2.59)
Kim, Judy E. CHEM 7L - General Chemistry Laboratory (A) FA17301 133 65.9% 62.6% 7.32 B (3.15) B- (2.91)
Kim, Judy E. CHEM 7L - General Chemistry Laboratory (B) FA17299 140 61.8% 53.7% 8.34 B (3.01) B- (2.91)
Bussey, Thomas J CHEM 96 - Introductn to Teaching Science (A) FA1713 5 100.0% 100.0% 5.50 A (4.00) N/A
Barnhill, Sarah Anne CHEM 140A - Organic Chemistry I (A) S217110 32 87.1% 93.3% 8.56 B (3.03) N/A
Ternansky, Robert J. CHEM 140B - Organic Chemistry II (A) S21782 27 92.3% 100.0% 12.65 B (3.04) B- (2.76)
Ternansky, Robert J. CHEM 140C - Organic Chemistry III (A) S21752 10 100.0% 100.0% 13.90 B- (2.90) B- (2.72)
Ray, Amelia W CHEM 6A - General Chemistry I (A) S21773 30 89.7% 100.0% 8.50 B+ (3.64) N/A
Johnson, Christina A CHEM 6B - General Chemistry II (A) S21749 15 93.3% 93.3% 9.97 B (3.08) N/A
Johnson, Christina A CHEM 6C - General Chemistry III (A) S21764 25 88.0% 96.0% 11.86 B- (2.92) N/A
Bussey, Thomas J CHEM 114A - Biochemical Structure&Function (A) S11751 11 90.9% 100.0% 10.68 B+ (3.36) B- (2.91)
Lacoske, Michelle Hill CHEM 140A - Organic Chemistry I (A) S117150 34 71.0% 77.4% 9.47 B (3.00) B- (2.83)
Weizman, Haim CHEM 140B - Organic Chemistry II (A) S117119 27 84.6% 100.0% 9.73 B (3.16) B- (2.89)
Hoeger, Carl CHEM 140C - Organic Chemistry III (A) S117117 37 75.0% 77.1% 10.83 B- (2.84) B- (2.97)
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (A) S117107 41 97.2% 94.3% 10.50 B (3.05) B- (2.97)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) S11744 19 68.4% 84.2% 7.55 C+ (2.63) B+ (3.34)
Bussey, Thomas J CHEM 6A - General Chemistry I (A) S11771 21 80.0% 90.0% 6.80 B+ (3.40) B- (2.95)
Buyanin, Alex CHEM 6B - General Chemistry II (A) S11745 16 86.7% 92.9% 9.57 B+ (3.33) B- (2.86)
Hoeger, Carl CHEM 6C - General Chemistry III (A) S117110 35 78.8% 90.6% 10.02 B- (2.97) B- (2.80)
Kim, Judy E. CHEM 7L - General Chemistry Laboratory (A) S117142 46 60.0% 60.5% 10.14 B (3.20) B (3.03)
Kim, Judy E. CHEM 7L - General Chemistry Laboratory (B) S117151 40 86.5% 66.7% 8.99 B+ (3.32) B (3.03)
Brydges, Stacey CHEM 1 - Scope of Chem and Biochem (A) SP1719 10 100.0% 100.0% 0.70 C (2.00) N/A
Tauber, Michael CHEM 100A - Analytical Chemistry Lab (A) SP1782 39 56.8% 59.5% 11.42 B (3.19) B- (2.95)
Sinha, Amitabha CHEM 105A - Physical Chemistry Laboratory (A) SP1769 29 57.7% 76.9% 8.19 B (3.29) B+ (3.35)
Jennings, Patricia A. CHEM 108 - Protein Biochemistry Lab (A) SP1745 14 100.0% 83.3% 7.95 B+ (3.67) B+ (3.34)
Huang, Xuemei CHEM 108 - Protein Biochemistry Lab (B) SP1724 10 100.0% 100.0% 6.50 B+ (3.33) B (3.28)
Wang, Wei CHEM 11 - The Periodic Table (A) SP17204 145 81.1% 79.0% 4.59 B+ (3.35) B- (3.00)
Joseph, Simpson CHEM 114C - Biosynthesis of Macromolecules (A) SP17191 56 86.0% 84.0% 6.24 B (3.14) B- (2.71)
Sailor, Michael Joseph CHEM 123 - Advanced Inorganic Chem Lab (A) SP1714 8 85.7% 100.0% 6.21 B+ (3.57) N/A
Cohen, Seth M CHEM 125 - Bioinorganic Chemistry (A) SP1721 13 83.3% 91.7% 6.32 B (3.08) B- (2.97)
Tezcan, Faik CHEM 125 - Bioinorganic Chemistry (A) SP1721 12 81.8% 90.9% 6.30 B (3.09) B- (2.97)
Crowell, John E CHEM 126 - Physical Chem: Quantum Mech (A) SP1763 28 77.8% 92.6% 6.58 B+ (3.50) B (3.02)
Ray, Amelia W CHEM 127 - Physical Chem: Thermodynamics (A) SP1790 40 89.5% 97.4% 6.66 B+ (3.42) B- (2.91)
Opella, Stanley J CHEM 13 - Chemistry of Life (A) SP1713 5 80.0% 60.0% 3.70 B (3.20) N/A
Galperin, Michael CHEM 132 - Chem Physics: Stat Thermo II (A) SP1749 23 60.9% 91.3% 8.85 B- (2.82) C+ (2.61)
Lipomi, Darren John CHEM 134 - Polymeric Materials (A) SP178 3 100.0% 66.7% 4.50 A (4.00) N/A
Hoeger, Carl CHEM 140A - Organic Chemistry I (A) SP17242 93 85.6% 87.8% 8.22 B- (2.99) B- (2.85)
Weizman, Haim CHEM 140B - Organic Chemistry II (A) SP17343 145 81.7% 86.3% 7.99 B- (2.92) B- (2.93)
Schmidt, Valerie A CHEM 140B - Organic Chemistry II (B) SP17357 155 76.1% 81.7% 8.27 B- (2.91) B+ (3.31)
Hermann, Thomas CHEM 140C - Organic Chemistry III (A) SP17228 89 87.1% 88.2% 7.23 B (3.20) B- (2.81)
Albizati, Kim F. CHEM 140C - Organic Chemistry III (B) SP17358 116 79.1% 91.8% 8.37 B (3.09) C+ (2.69)
Tor, Yitzhak CHEM 140CH - Honors Organic Chemistry (A) SP1763 33 93.8% 90.6% 6.38 B+ (3.68) A- (3.71)
Gianneschi, Nathan CHEM 141 - Organic Nanomaterials (A) SP1713 4 100.0% 100.0% 3.50 B+ (3.50) N/A
Ternansky, Robert J. CHEM 143A - Organic Chemistry Laboratory (A) SP17418 173 82.0% 85.1% 6.53 B (3.24) B (3.09)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) SP1758 18 70.6% 88.2% 8.50 B- (2.71) B (3.23)
Weizman, Haim CHEM 151 - Molecules That Changed World (A) SP1776 33 93.9% 97.0% 3.59 B+ (3.53) B+ (3.48)
Burkart, Michael D CHEM 157 - Natural Products Chemistry (A) SP1761 29 89.3% 96.4% 5.71 B (3.29) B (3.15)
Baker, Timothy Stanley CHEM 164 - Structural Biology of Viruses (A) SP1722 8 75.0% 100.0% 4.50 B (3.00) B- (2.84)
Amaro, Rommie E CHEM 167 - Medicinal Chemistry (A) SP1799 37 93.5% 96.8% 5.34 B+ (3.47) B+ (3.53)
Evan, Amato Tomas CHEM 173 - Atmospheric Chemistry (A) SP1735 15 86.7% 80.0% 4.93 B+ (3.50) B+ (3.31)
Prather, Kimberly A CHEM 173 - Atmospheric Chemistry (A) SP1735 15 86.7% 86.7% 5.07 B+ (3.50) B+ (3.31)
Ramanathan, Veerabhadran CHEM 173 - Atmospheric Chemistry (A) SP1735 15 86.7% 80.0% 4.93 B+ (3.50) B+ (3.31)
Dickson, Andrew Gilmore CHEM 174 - Chem Prin of Marine Systems (A) SP1728 15 71.4% 71.4% 5.64 B- (2.92) B- (2.94)
Weare, John H. CHEM 185 - Intro/Computational Chemistry (A) SP179 3 100.0% 100.0% 8.50 B+ (3.50) N/A
Tezcan, Faik CHEM 6A - General Chemistry I (A) SP17161 68 79.1% 82.1% 6.26 B- (2.73) C (2.13)
Hoeger, Carl CHEM 6B - General Chemistry II (A) SP17269 133 88.5% 91.0% 8.12 B- (2.78) B- (2.89)
Trogler, William C CHEM 6B - General Chemistry II (B) SP17261 127 82.8% 74.1% 7.05 B- (2.94) C+ (2.65)
Lam, Tin Yiu CHEM 6C - General Chemistry III (A) SP17288 142 91.6% 87.0% 6.94 B (3.22) B- (2.95)
Brydges, Stacey CHEM 6C - General Chemistry III (B) SP17364 166 89.8% 92.4% 6.36 B+ (3.32) B (3.18)
Johnson, Christina A CHEM 6C - General Chemistry III (C) SP17272 130 88.6% 89.4% 8.14 B (3.08) B- (2.83)
Johnson, Christina A CHEM 6C - General Chemistry III (D) SP17393 186 83.0% 86.9% 8.42 B- (2.98) B- (2.83)
Kim, Judy E. CHEM 7L - General Chemistry Laboratory (A) SP17283 136 66.7% 46.5% 6.74 B (3.07) B- (2.94)
Kim, Judy E. CHEM 7L - General Chemistry Laboratory (B) SP17241 100 70.1% 47.4% 6.67 B (3.10) B- (2.94)
Brydges, Stacey CHEM 7LM - General Chemistry Lab - Majors (A) SP1790 48 88.6% 93.2% 9.34 B+ (3.42) B+ (3.57)
Kummel, Andrew C CHEM 93 - Cancer Therapeutic/Diagnostic (A) SP177 5 100.0% 100.0% 4.10 A (4.00) N/A
Malake, Milan CHEM 93 - Cancer Therapeutic/Diagnostic (A) SP177 5 100.0% 100.0% 4.10 A (4.00) N/A
Bussey, Thomas J CHEM 96 - Introductn to Teaching Science (A) SP1719 8 100.0% 100.0% 3.07 A- (3.86) N/A
Tauber, Michael CHEM 100A - Analytical Chemistry Lab (A) WI1786 48 46.7% 48.9% 9.30 B (3.02) B- (2.92)
Pomeroy, Robert S. CHEM 100B - Instrumental Chemistry Lab (A) WI1720 4 100.0% 100.0% 11.00 B+ (3.67) C+ (2.62)
Crowell, John E CHEM 105A - Physical Chemistry Laboratory (A) WI1733 14 58.3% 83.3% 9.83 B- (2.92) B- (2.94)
Johnson, Christina A CHEM 109 - Recombinant DNA Laboratory (A) WI1737 14 83.3% 91.7% 10.83 C+ (2.58) B+ (3.31)
Johnson, Christina A CHEM 109 - Recombinant DNA Laboratory (B) WI1720 10 77.8% 100.0% 10.72 B (3.22) B+ (3.31)
Muller, Ulrich K. CHEM 114A - Biochemical Structure&Function (A) WI17107 39 92.3% 84.6% 6.18 B (3.19) C+ (2.49)
Komives, Elizabeth A CHEM 114B - Biochem Energetics&Metabolism (A) WI17154 56 96.3% 100.0% 7.82 B (3.21) B (3.15)
Devaraj, Neal Krishna CHEM 116 - Chemical Biology (B) WI178 3 66.7% 100.0% 5.17 C+ (2.67) N/A
Amaro, Rommie E CHEM 118 - Pharmacology and Toxicology (A) WI17178 64 98.4% 98.4% 5.21 B+ (3.56) B+ (3.49)
Hoeger, Carl CHEM 12 - Molecules and Reactions (A) WI1784 39 82.1% 89.7% 5.24 B (3.00) B+ (3.34)
Figueroa, Joshua CHEM 120A - Inorganic Chemistry I (A) WI1797 38 86.5% 94.6% 7.61 B (3.24) C+ (2.61)
Sailor, Michael Joseph CHEM 120B - Inorganic Chemistry II (A) WI1779 42 97.6% 97.6% 6.45 B+ (3.44) B (3.09)
Xiong, Wei CHEM 126 - Physical Chem: Quantum Mech (A) WI17153 55 38.0% 58.0% 8.50 B- (2.94) B- (2.88)
Weare, John H. CHEM 131 - Chem Physics: Stat Thermo I (A) WI1763 30 37.9% 10.3% 8.98 C+ (2.59) B (3.08)
Bertrand, Guy CHEM 140A - Organic Chemistry I (A) WI17365 194 96.8% 97.8% 6.51 B+ (3.41) B- (2.83)
Gianneschi, Nathan CHEM 140A - Organic Chemistry I (B) WI17263 123 73.9% 71.3% 8.52 B- (2.84) C+ (2.60)
Albizati, Kim F. CHEM 140B - Organic Chemistry II (A) WI17404 184 84.5% 92.0% 8.38 B (3.05) B- (2.77)
Ternansky, Robert J. CHEM 140B - Organic Chemistry II (B) WI17128 68 92.6% 94.1% 9.31 B- (2.88) C+ (2.67)
Hoeger, Carl CHEM 140B - Organic Chemistry II (C) WI17201 99 81.9% 93.6% 9.73 B (3.02) B- (2.86)
Albizati, Kim F. CHEM 140B - Organic Chemistry II (D) WI17221 89 80.5% 90.2% 9.53 B (3.03) B- (2.77)
Weizman, Haim CHEM 140BH - Honors Organic Chemistry (A) WI1776 35 92.3% 92.3% 7.35 B+ (3.65) B+ (3.65)
Godula, Kamil CHEM 140C - Organic Chemistry III (A) WI17203 193 85.5% 87.6% 7.36 B- (2.96) C+ (2.47)
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (A) WI17449 200 78.1% 82.0% 6.88 B (3.20) B- (2.98)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) WI1774 35 76.5% 91.2% 7.62 B (3.15) B+ (3.32)
Burkart, Michael D CHEM 145 - Biofuels (A) WI1711 9 100.0% 100.0% 3.61 B+ (3.67) N/A
Schmidt, Valerie A CHEM 155 - Synthesis of Complex Molecules (A) WI178 5 80.0% 80.0% 3.70 B+ (3.60) N/A
Yang, Jerry CHEM 156 - Struct&Properties/Organc Molec (A) WI1713 5 80.0% 100.0% 8.90 B (3.20) N/A
Perrin, Charles L. CHEM 158 - Applied Spectroscopy (A) WI176 4 75.0% 100.0% 10.00 B+ (3.67) N/A
Villa Rodriguez, Elizabeth CHEM 165 - 3D Elctron Microscopy/Macromol (A) WI179 8 100.0% 100.0% 4.21 B+ (3.50) N/A
Devaraj, Neal Krishna CHEM 168 - Drug Synthesis and Design (A) WI1763 25 91.7% 95.8% 4.50 B+ (3.52) B+ (3.36)
Estillore, Armando D CHEM 171 - Environmental Chemistry I (A) WI1782 35 90.9% 90.9% 5.05 B+ (3.32) B- (2.95)
Grassian, Vicki Helene CHEM 171 - Environmental Chemistry I (A) WI1781 34 90.6% 87.5% 5.13 B+ (3.30) B- (2.95)
Bussey, Thomas J CHEM 187 - Foundn of Teach&Learn Science (A) WI178 6 100.0% 100.0% 4.10 A- (3.80) N/A
Newsam, John CHEM 194 - Special Topics in Chemistry (A) WI177 6 100.0% 100.0% 4.10 A (4.00) N/A
Schimpf, Alina M CHEM 6A - General Chemistry I (A) WI17375 175 86.6% 63.7% 6.44 B (3.03) C+ (2.59)
Zid, Brian M CHEM 6A - General Chemistry I (B) WI17191 97 82.6% 64.1% 6.81 B- (2.85) B- (2.71)
Buyanin, Alex CHEM 6B - General Chemistry II (A) WI17345 223 82.8% 61.2% 7.07 B- (2.82) C+ (2.55)
Kummel, Andrew C CHEM 6B - General Chemistry II (B) WI17211 111 92.1% 81.2% 6.60 B (3.21) C+ (2.69)
Lam, Tin Yiu CHEM 6B - General Chemistry II (C) WI17285 148 91.0% 90.3% 7.20 B (3.27) B- (2.86)
Bussey, Thomas J CHEM 6B - General Chemistry II (D) WI17407 209 92.3% 91.8% 6.35 B (3.23) B- (2.73)
Johnson, Christina A CHEM 6B - General Chemistry II (E) WI17426 232 93.6% 91.8% 7.89 B (3.13) B (3.05)
Crowell, John E CHEM 6B - General Chemistry II (F) WI17195 76 80.6% 55.6% 7.53 B- (2.94) B- (2.73)
Paesani, Francesco CHEM 6BH - Honors General Chemistry II (A) WI1788 69 81.8% 97.0% 7.75 B (3.25) B+ (3.45)
Brydges, Stacey CHEM 6C - General Chemistry III (A) WI17173 79 85.9% 87.2% 6.37 B (3.22) B- (2.87)
Cohen, Seth M CHEM 7L - General Chemistry Laboratory (A) WI17260 158 88.8% 94.7% 4.71 B+ (3.52) B+ (3.49)
Cohen, Seth M CHEM 7L - General Chemistry Laboratory (B) WI17269 154 95.1% 97.2% 5.06 B+ (3.54) B+ (3.49)
Brydges, Stacey CHEM 87 - Freshman Seminar (A) WI1710 10 90.0% 100.0% 0.90 A (4.00) N/A
Shaheen, Robina CHEM 100A - Analytical Chemistry Lab (A) FA1695 53 64.6% 12.5% 8.12 B (3.17) B (3.18)
Pomeroy, Robert S. CHEM 100B - Instrumental Chemistry Lab (A) FA1614 7 100.0% 85.7% 9.36 B (3.14) N/A
Crowell, John E CHEM 105A - Physical Chemistry Laboratory (A) FA1629 11 72.7% 81.8% 10.50 B- (2.73) B (3.00)
Ghosh, Gourisankar CHEM 108 - Protein Biochemistry Lab (A) FA1673 39 94.7% 81.6% 5.76 B+ (3.45) B+ (3.48)
Mrse, Anthony Adrian CHEM 11 - The Periodic Table (A) FA16202 86 70.5% 76.9% 5.06 B (3.13) B (3.17)
Toor, Navtej CHEM 114A - Biochemical Structure&Function (A) FA16232 113 89.2% 71.2% 6.65 B (3.29) B- (2.90)
Ghosh, Gourisankar CHEM 114D - Molecular & Cellular Biochem (A) FA1627 11 90.0% 100.0% 6.72 B+ (3.50) B+ (3.49)
Rinehart, Jeffrey Dennis CHEM 120A - Inorganic Chemistry I (A) FA16161 86 94.1% 97.6% 7.31 B (3.25) B- (2.74)
Yuen Zhou, Joel CHEM 127 - Physical Chem: Thermodynamics (A) FA16126 101 64.0% 62.0% 8.02 B- (2.86) B- (2.94)
Sinha, Amitabha CHEM 130 - Chem Physics: Quantum Mech (A) FA1680 34 72.7% 66.7% 9.25 B- (2.94) C+ (2.70)
Oconnor, Joseph M. CHEM 140A - Organic Chemistry I (A) FA16381 195 81.1% 76.7% 9.47 B- (2.95) B- (2.76)
Yang, Jerry CHEM 140A - Organic Chemistry I (B) FA16193 86 76.5% 66.7% 8.38 B- (2.91) C+ (2.65)
Ternansky, Robert J. CHEM 140A - Organic Chemistry I (C) FA16188 128 86.3% 86.3% 9.79 B- (2.92) B- (2.70)
Perrin, Charles L. CHEM 140A - Organic Chemistry I (D) FA16349 192 82.7% 83.2% 8.49 B (3.03) C+ (2.66)
Albizati, Kim F. CHEM 140A - Organic Chemistry I (E) FA16158 81 96.2% 98.7% 7.73 B (3.04) C+ (2.61)
Theodorakis, Emmanouil CHEM 140B - Organic Chemistry II (A) FA16142 77 86.5% 89.2% 7.13 B (3.05) C+ (2.66)
Hoeger, Carl CHEM 140B - Organic Chemistry II (B) FA16136 61 75.5% 84.9% 9.62 B (3.06) C+ (2.63)
Hermann, Thomas CHEM 140C - Organic Chemistry III (A) FA16283 116 90.0% 96.4% 6.63 B (3.23) B (3.01)
Cao, Kevin Jay CHEM 143A - Organic Chemistry Laboratory (A) FA16460 236 86.8% 89.5% 5.93 B (3.28) B (3.21)
Ternansky, Robert J. CHEM 143C - Organic Chemistry Laboratory (A) FA1653 23 90.9% 72.7% 8.39 B- (2.89) B (3.20)
Weizman, Haim CHEM 143D - Molecular Design & Synthesis (B) FA169 5 100.0% 100.0% 8.90 B+ (3.40) N/A
Theodorakis, Emmanouil CHEM 152 - Synthetic Methods/Organic Chem (A) FA1644 22 77.3% 81.8% 3.95 B (3.27) B+ (3.48)
Tor, Yitzhak CHEM 154 - Mechanisms/Organic Reactions (A) FA1639 22 94.7% 100.0% 6.71 B+ (3.67) B+ (3.58)
Pomeroy, Robert S. CHEM 172 - Environmental Chemistry II (A) FA1669 26 100.0% 100.0% 5.62 B- (2.92) B- (2.78)
Albizati, Kim F. CHEM 192 - Sr Seminar in Chem & Biochem (A) FA1619 9 100.0% 100.0% 1.83 B- (2.75) N/A
Hoeger, Carl CHEM 4 - Basic Chemistry (A) FA16235 139 85.7% 86.5% 6.96 B- (2.80) B- (2.75)
Berniolles, Sandrine CHEM 6A - General Chemistry I (A) FA16397 220 93.7% 87.9% 6.35 B (3.15) B (3.06)
Berniolles, Sandrine CHEM 6A - General Chemistry I (B) FA16205 121 95.5% 93.6% 6.50 B (3.13) B (3.06)
Brydges, Stacey CHEM 6A - General Chemistry I (C) FA16329 190 96.1% 95.6% 6.96 B+ (3.42) B (3.10)
Johnson, Christina A CHEM 6A - General Chemistry I (D) FA16425 245 93.5% 97.8% 7.88 B (3.00) B (3.18)
Johnson, Christina A CHEM 6A - General Chemistry I (E) FA16433 275 92.7% 94.3% 7.35 B (3.10) B (3.18)
Crowell, John E CHEM 6A - General Chemistry I (F) FA16326 188 87.3% 53.0% 7.67 B (3.02) B- (2.72)
Moore, Amy Lea CHEM 6A - General Chemistry I (G) FA16327 197 94.5% 90.1% 6.30 B+ (3.31) B (3.08)
Lam, Tin Yiu CHEM 6A - General Chemistry I (H) FA16193 116 91.0% 85.6% 6.68 B (3.26) B- (2.88)
Albizati, Kim F. CHEM 6A - General Chemistry I (I) FA16217 120 92.9% 92.0% 5.77 B+ (3.49) B (3.01)
Tauber, Michael CHEM 6AH - Honors General Chemistry I (A) FA16125 86 78.5% 75.9% 8.35 B+ (3.30) B+ (3.34)
Bussey, Thomas J CHEM 6B - General Chemistry II (A) FA16210 106 89.1% 99.0% 5.79 B (3.19) C+ (2.70)
Bussey, Thomas J CHEM 6C - General Chemistry III (A) FA16385 172 97.0% 98.2% 6.61 B (3.21) B- (2.81)
Kim, Judy E. CHEM 7L - General Chemistry Laboratory (A) FA16347 182 76.6% 74.3% 7.17 B (3.20) B- (2.97)
Kim, Judy E. CHEM 7L - General Chemistry Laboratory (B) FA16336 165 76.5% 81.0% 6.33 B (3.22) B- (2.97)
Weizman, Haim CHEM 87 - Freshman Seminar (B) FA1616 9 100.0% 100.0% 1.25 N/A N/A
Luthi, Andrea J CHEM 12 - Molecules and Reactions (A) S21613 12 83.3% 91.7% 5.59 B+ (3.30) N/A
Ternansky, Robert J. CHEM 140A - Organic Chemistry I (A) S21669 42 81.0% 92.9% 14.50 B (3.12) C+ (2.63)
Oconnor, Joseph M. CHEM 140A - Organic Chemistry I (B) S21623 10 80.0% 70.0% 9.90 B (3.20) B (3.25)
Oconnor, Joseph M. CHEM 140B - Organic Chemistry II (A) S216155 34 93.9% 93.9% 13.21 B (3.10) C+ (2.56)
Albizati, Kim F. CHEM 140C - Organic Chemistry III (A) S216162 35 97.0% 100.0% 11.17 B (3.21) B- (2.80)
Fisher, Kaitlin Mallory CHEM 6A - General Chemistry I (A) S21664 30 96.6% 93.1% 7.33 B+ (3.62) B+ (3.51)
Johnson, Christina A CHEM 6B - General Chemistry II (A) S21637 13 92.3% 84.6% 11.58 C+ (2.69) C+ (2.69)
Johnson, Christina A CHEM 6C - General Chemistry III (A) S21671 19 82.4% 100.0% 10.97 B- (2.76) B- (2.73)
Finzel, Kara CHEM 11 - The Periodic Table (A) S11643 16 87.5% 93.8% 5.25 A- (3.80) B- (2.90)
Bussey, Thomas J CHEM 114A - Biochemical Structure&Function (A) S11663 23 95.2% 95.2% 9.70 B+ (3.67) B- (2.97)
Boerneke, Mark Andrew CHEM 140A - Organic Chemistry I (A) S116167 140 87.1% 95.0% 11.16 B- (2.86) B- (2.73)
Weizman, Haim CHEM 140B - Organic Chemistry II (A) S116129 31 86.2% 96.6% 10.57 B (3.14) B- (2.73)
Albizati, Kim F. CHEM 140C - Organic Chemistry III (A) S11696 19 94.1% 100.0% 10.74 B+ (3.35) C+ (2.66)
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (A) S116132 28 84.0% 84.0% 11.30 B (3.16) B- (2.97)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) S11636 15 92.9% 85.7% 10.93 B (3.07) B+ (3.40)
Hoeger, Carl CHEM 6A - General Chemistry I (A) S11651 8 87.5% 87.5% 8.25 B (3.25) B (3.06)
Bussey, Thomas J CHEM 6B - General Chemistry II (A) S11656 12 100.0% 100.0% 8.50 B (3.00) B- (2.86)
Hoeger, Carl CHEM 6C - General Chemistry III (A) S11658 15 84.6% 92.3% 10.96 B (3.09) B (3.19)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (A) S116135 49 79.5% 87.2% 9.45 B+ (3.34) B (3.10)
Fisher, Kaitlin Mallory CHEM 7L - General Chemistry Laboratory (B) S116152 59 90.7% 94.4% 7.12 B+ (3.48) B+ (3.47)
Pomeroy, Robert S. CHEM 100A - Analytical Chemistry Lab (A) SP1680 41 69.2% 89.7% 7.83 B (3.03) B- (2.80)
Pomeroy, Robert S. CHEM 100B - Instrumental Chemistry Lab (A) SP1620 6 100.0% 100.0% 5.30 B (3.20) B- (2.98)
Xiong, Wei CHEM 105A - Physical Chemistry Laboratory (A) SP1646 20 55.6% 88.9% 8.50 B (3.06) B (3.23)
Huang, Xuemei CHEM 108 - Protein Biochemistry Lab (A) SP1651 18 100.0% 100.0% 9.43 B+ (3.47) B+ (3.48)
Mrse, Anthony Adrian CHEM 108 - Protein Biochemistry Lab (A) SP1651 17 100.0% 100.0% 9.43 B+ (3.47) B+ (3.48)
Wang, Wei CHEM 11 - The Periodic Table (A) SP16199 170 81.2% 72.9% 4.05 B+ (3.36) B (3.13)
Komives, Elizabeth A CHEM 113 - Physical Chem/Biol Macromolec (A) SP1615 9 100.0% 100.0% 6.50 A- (3.88) N/A
Wollman, Roy CHEM 114B - Biochem Energetics&Metabolism (A) SP1638 15 100.0% 71.4% 5.93 B+ (3.64) B (3.20)
Joseph, Simpson CHEM 114C - Biosynthesis of Macromolecules (A) SP16148 44 77.3% 61.4% 6.95 B (3.00) C+ (2.70)
Sailor, Michael Joseph CHEM 123 - Advanced Inorganic Chem Lab (A) SP1615 8 100.0% 100.0% 4.50 A- (3.80) N/A
Cohen, Seth M CHEM 125 - Bioinorganic Chemistry (A) SP1611 10 90.0% 100.0% 5.50 B- (2.90) N/A
Tezcan, Faik CHEM 125 - Bioinorganic Chemistry (A) SP1612 9 88.9% 88.9% 5.61 B- (2.78) N/A
Crowell, John E CHEM 126 - Physical Chem: Quantum Mech (A) SP1644 16 73.3% 80.0% 8.23 B- (2.73) B- (2.97)
Villa Rodriguez, Elizabeth CHEM 127 - Physical Chem: Thermodynamics (A) SP1690 62 82.0% 90.2% 5.71 B (3.15) B- (2.91)
Opella, Stanley J CHEM 13 - Chemistry of Life (A) SP1660 29 44.4% 55.6% 4.57 B (3.07) B- (2.91)
Galperin, Michael CHEM 132 - Chem Physics: Stat Thermo II (A) SP1642 23 73.9% 82.6% 7.77 B- (2.85) B- (2.77)
Ternansky, Robert J. CHEM 140A - Organic Chemistry I (A) SP16209 109 78.6% 82.5% 9.85 B- (2.86) C+ (2.67)
Siegel, Dionicio R. CHEM 140B - Organic Chemistry II (A) SP16387 276 92.6% 95.9% 6.94 B (3.16) C+ (2.34)
Weizman, Haim CHEM 140B - Organic Chemistry II (B) SP16323 119 72.2% 85.2% 8.48 B- (2.76) C+ (2.63)
Albizati, Kim F. CHEM 140C - Organic Chemistry III (A) SP16403 144 85.8% 93.3% 7.97 B (3.13) B- (2.72)
Hoeger, Carl CHEM 140C - Organic Chemistry III (B) SP16195 84 83.3% 80.8% 8.53 B- (2.99) B (3.04)
Tor, Yitzhak CHEM 140CH - Honors Organic Chemistry (A) SP1670 36 94.3% 97.1% 6.96 B+ (3.65) B+ (3.67)
Albizati, Kim F. CHEM 143A - Organic Chemistry Laboratory (A) SP16458 167 88.0% 98.0% 6.51 B+ (3.33) B (3.03)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) SP1682 30 96.3% 92.6% 6.81 B (3.12) B (3.30)
Perrin, Charles L. CHEM 146 - Kinetics & Mechan of Org React (A) SP167 3 100.0% 100.0% 9.50 B+ (3.50) N/A
Weizman, Haim CHEM 151 - Molecules That Changed World (A) SP1664 36 87.9% 90.9% 3.77 B+ (3.42) B+ (3.57)
Burkart, Michael D CHEM 157 - Natural Products Chemistry (A) SP1626 10 90.0% 100.0% 4.70 B (3.20) B (3.26)
Baker, Timothy Stanley CHEM 164 - Structural Biology of Viruses (A) SP1630 12 75.0% 91.7% 5.83 B+ (3.33) B (3.24)
Dickson, Andrew Gilmore CHEM 174 - Chem Prin of Marine Systems (A) SP1634 12 77.8% 88.9% 4.72 B+ (3.44) B- (2.79)
Amaro, Rommie E CHEM 185 - Intro/Computational Chemistry (A) SP1615 6 25.0% 75.0% 10.50 B- (2.75) N/A
Walker, Ross Charles CHEM 185 - Intro/Computational Chemistry (A) SP1617 6 25.0% 50.0% 10.50 B- (2.75) N/A
Bussey, Thomas J CHEM 188 - Capstone Sem in Science Eductn (A) SP165 4 100.0% 100.0% 4.00 A- (3.75) N/A
Tezcan, Faik CHEM 6A - General Chemistry I (A) SP16108 43 85.0% 67.5% 6.19 B (3.08) C+ (2.54)
Fisher, Kaitlin Mallory CHEM 6B - General Chemistry II (A) SP16350 173 94.1% 98.8% 7.11 B (3.23) B (3.23)
Fisher, Kaitlin Mallory CHEM 6B - General Chemistry II (B) SP16185 87 91.8% 98.8% 6.55 B (3.17) B (3.20)
Hoeger, Carl CHEM 6C - General Chemistry III (A) SP16197 94 93.3% 84.3% 6.91 B (3.26) B- (2.88)
Brydges, Stacey CHEM 6C - General Chemistry III (B) SP16356 169 92.9% 95.5% 6.70 B (3.21) B (3.20)
Johnson, Christina A CHEM 6C - General Chemistry III (C) SP16353 165 86.0% 80.9% 8.14 B- (2.89) B- (2.86)
Johnson, Christina A CHEM 6C - General Chemistry III (D) SP16400 202 87.2% 85.7% 8.25 B- (2.82) B- (2.83)
Kubiak, Clifford Paul CHEM 6CH - Honors General Chemistry III (A) SP1691 44 78.6% 90.5% 6.55 B+ (3.56) B+ (3.53)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (A) SP16273 107 80.6% 92.2% 5.01 B+ (3.41) B (3.06)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (B) SP16273 119 79.6% 83.2% 5.82 B (3.24) B (3.03)
Brydges, Stacey CHEM 7LM - General Chemistry Lab - Majors (A) SP1693 50 95.7% 95.7% 10.85 B+ (3.45) B+ (3.54)
Doolittle, Russell F. CHEM 92 - Undergrad Pharmacology Seminar (A) SP16102 44 84.1% 81.8% 1.45 A (4.00) N/A
Kummel, Andrew C CHEM 93 - Cancer Therapeutic/Diagnostic (A) SP1612 5 100.0% 80.0% 7.70 A- (3.75) N/A
Bussey, Thomas J CHEM 96 - Introductn to Teaching Science (A) SP1610 4 100.0% 100.0% 4.00 A (4.00) N/A
Tauber, Michael CHEM 100A - Analytical Chemistry Lab (A) WI1657 28 67.9% 64.3% 8.29 B (3.04) B- (2.83)
Pomeroy, Robert S. CHEM 100B - Instrumental Chemistry Lab (A) WI1621 9 100.0% 88.9% 8.06 B+ (3.33) B (3.13)
Crowell, John E CHEM 105A - Physical Chemistry Laboratory (A) WI1625 14 71.4% 78.6% 11.58 B (3.08) B (3.14)
Johnson, Christina A CHEM 109 - Recombinant DNA Laboratory (A) WI1661 17 81.3% 87.5% 12.50 B+ (3.56) B+ (3.33)
Bussey, Thomas J CHEM 114A - Biochemical Structure&Function (A) WI1691 48 90.9% 93.2% 8.09 B+ (3.30) B- (2.99)
Komives, Elizabeth A CHEM 114B - Biochem Energetics&Metabolism (A) WI16123 66 92.7% 94.5% 7.59 B (3.24) B (3.22)
Devaraj, Neal Krishna CHEM 116 - Chemical Biology (A) WI1612 3 100.0% 100.0% 5.17 B+ (3.67) N/A
Amaro, Rommie E CHEM 118 - Pharmacology and Toxicology (A) WI1697 36 100.0% 97.1% 5.13 B+ (3.40) B+ (3.49)
Dibrov, Sergey M CHEM 12 - Molecules and Reactions (A) WI16152 137 75.0% 78.7% 4.40 B (3.20) C+ (2.64)
Figueroa, Joshua CHEM 120A - Inorganic Chemistry I (A) WI1680 43 87.5% 82.5% 8.24 B- (2.92) B- (2.78)
Sailor, Michael Joseph CHEM 120B - Inorganic Chemistry II (A) WI1643 21 100.0% 100.0% 4.71 B+ (3.50) B+ (3.54)
Paesani, Francesco CHEM 126 - Physical Chem: Quantum Mech (A) WI16130 62 78.9% 94.7% 7.94 B (3.11) B- (2.84)
Weare, John H. CHEM 131 - Chem Physics: Stat Thermo I (A) WI1654 32 53.1% 34.4% 7.47 B- (2.81) B (3.22)
Bertrand, Guy CHEM 140A - Organic Chemistry I (A) WI16376 189 90.6% 97.2% 6.83 B (3.25) B- (2.75)
Gianneschi, Nathan CHEM 140A - Organic Chemistry I (B) WI16272 131 80.0% 62.0% 8.33 B- (2.74) B- (2.78)
Albizati, Kim F. CHEM 140B - Organic Chemistry II (A) WI16407 193 90.9% 97.8% 8.20 B (3.09) B- (2.72)
Ternansky, Robert J. CHEM 140B - Organic Chemistry II (B) WI16196 127 87.0% 87.8% 9.39 B (3.10) C+ (2.68)
Burkart, Michael D CHEM 140B - Organic Chemistry II (C) WI16376 199 87.7% 94.4% 8.56 B (3.10) B- (2.72)
Weizman, Haim CHEM 140BH - Honors Organic Chemistry (A) WI1664 43 93.0% 93.0% 8.31 B+ (3.49) B+ (3.66)
Godula, Kamil CHEM 140C - Organic Chemistry III (A) WI16184 171 87.1% 92.9% 7.36 B (3.09) B- (2.72)
Gianneschi, Nathan CHEM 141 - Organic Nanomaterials (A) WI163 3 100.0% 100.0% 4.50 B+ (3.33) N/A
Ternansky, Robert J. CHEM 143A - Organic Chemistry Laboratory (A) WI16404 197 78.7% 64.9% 7.17 B- (2.99) B (3.11)
Weizman, Haim CHEM 143AM - Organic Chem Lab - Majors (A) WI1664 36 91.2% 94.1% 8.09 B (3.29) B- (2.97)
Albizati, Kim F. CHEM 143B - Organic Chemistry Laboratory (A) WI1686 38 94.1% 97.1% 5.83 B+ (3.45) B (3.14)
Yang, Jerry CHEM 156 - Struct&Properties/Organc Molec (A) WI168 5 60.0% 100.0% 6.50 B+ (3.40) N/A
Devaraj, Neal Krishna CHEM 168 - Drug Synthesis and Design (A) WI1652 21 95.2% 95.2% 5.36 B (3.24) B (3.26)
Pomeroy, Robert S. CHEM 172 - Environmental Chemistry II (A) WI1639 17 94.1% 100.0% 6.26 B (3.18) B- (2.95)
Bussey, Thomas J CHEM 187 - Foundn of Teach&Learn Science (A) WI165 3 100.0% 100.0% 4.50 B+ (3.67) N/A
Newsam, John CHEM 194 - Special Topics in Chemistry (A) WI1618 16 93.8% 100.0% 1.75 A- (3.86) N/A
Albizati, Kim F. CHEM 194 - Special Topics in Chemistry (B) WI1618 11 90.9% 90.9% 2.14 B (3.11) N/A
Dibrov, Sergey M CHEM 6A - General Chemistry I (A) WI16128 87 78.3% 47.0% 6.25 C+ (2.44) C (2.24)
Dembinski, Holly CHEM 6A - General Chemistry I (B) WI16248 125 82.6% 46.1% 6.19 C+ (2.47) B- (2.78)
Fisher, Kaitlin Mallory CHEM 6A - General Chemistry I (C) WI16211 103 92.8% 93.8% 6.64 B (3.08) B (3.19)
Trogler, William C CHEM 6B - General Chemistry II (A) WI16384 225 92.6% 79.6% 6.28 B+ (3.39) B (3.24)
Kummel, Andrew C CHEM 6B - General Chemistry II (B) WI16378 242 90.9% 91.3% 6.25 B (3.26) B- (2.86)
Hamaoka, Brent Y CHEM 6B - General Chemistry II (C) WI16153 85 83.3% 51.3% 5.29 B (3.08) B- (2.79)
Hoeger, Carl CHEM 6B - General Chemistry II (D) WI16375 227 92.5% 86.8% 7.57 B (3.12) B- (2.83)
Johnson, Christina A CHEM 6B - General Chemistry II (E) WI16428 261 89.4% 92.1% 7.65 B (3.10) B (3.03)
Paesani, Francesco CHEM 6BH - Honors General Chemistry II (A) WI16104 79 88.2% 97.4% 7.37 B+ (3.57) B+ (3.46)
Hoeger, Carl CHEM 6C - General Chemistry III (A) WI16155 73 87.5% 86.1% 7.97 C+ (2.69) B- (2.73)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (A) WI16225 94 81.7% 87.8% 6.06 B (3.12) B (3.05)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (B) WI16205 111 84.6% 87.5% 5.94 B (3.26) B (3.05)
Fisher, Kaitlin Mallory CHEM 7L - General Chemistry Laboratory (C) WI16131 76 83.3% 98.6% 6.09 B+ (3.43) B+ (3.32)
Brydges, Stacey CHEM 7LM - General Chemistry Lab - Majors (A) WI1677 42 97.6% 100.0% 8.83 B+ (3.55) B+ (3.65)
Bussey, Thomas J CHEM 87 - Freshman Seminar (B) WI1617 10 100.0% 100.0% 1.93 N/A N/A
Bussey, Thomas J CHEM 96 - Introductn to Teaching Science (A) WI1615 11 100.0% 100.0% 3.23 A- (3.90) N/A
Pomeroy, Robert S. CHEM 100A - Analytical Chemistry Lab (A) FA15121 60 75.9% 81.0% 7.64 B (3.26) B- (3.00)
Xiong, Wei CHEM 105A - Physical Chemistry Laboratory (A) FA1530 5 100.0% 100.0% 8.50 B+ (3.60) B (3.06)
Xiong, Wei CHEM 105B - Physical Chemistry Laboratory (A) FA155 3 66.7% 66.7% 7.83 B+ (3.67) N/A
Ghosh, Gourisankar CHEM 108 - Protein Biochemistry Lab (A) FA1557 20 100.0% 75.0% 5.17 B+ (3.53) B+ (3.42)
Brydges, Stacey CHEM 11 - The Periodic Table (A) FA15197 91 90.9% 98.9% 4.91 B+ (3.31) B (3.22)
Toor, Navtej CHEM 114A - Biochemical Structure&Function (A) FA15190 83 88.9% 85.2% 6.53 B (3.26) B (3.09)
Ghosh, Gourisankar CHEM 114D - Molecular & Cellular Biochem (A) FA1529 4 50.0% 75.0% 5.50 B (3.25) B+ (3.47)
Rinehart, Jeffrey Dennis CHEM 120A - Inorganic Chemistry I (A) FA15116 58 90.6% 92.5% 5.13 B+ (3.33) B- (2.91)
Yuen Zhou, Joel CHEM 127 - Physical Chem: Thermodynamics (A) FA15113 55 49.0% 33.3% 8.62 B (3.04) B- (2.77)
Sinha, Amitabha CHEM 130 - Chem Physics: Quantum Mech (A) FA1585 44 62.8% 67.4% 8.75 B- (2.80) C+ (2.40)
Oconnor, Joseph M. CHEM 140A - Organic Chemistry I (A) FA15392 161 83.9% 87.9% 9.65 B (3.07) B- (2.72)
Yang, Jerry CHEM 140A - Organic Chemistry I (B) FA15257 108 86.8% 84.0% 8.44 B (3.13) B- (2.79)
Ternansky, Robert J. CHEM 140A - Organic Chemistry I (C) FA15248 146 80.4% 69.6% 10.78 C+ (2.68) C+ (2.68)
Perrin, Charles L. CHEM 140A - Organic Chemistry I (D) FA15341 171 82.0% 91.9% 8.71 B- (2.99) B- (2.75)
Theodorakis, Emmanouil CHEM 140B - Organic Chemistry II (A) FA15347 118 79.8% 90.8% 8.09 B- (2.89) B- (2.78)
Hermann, Thomas CHEM 140C - Organic Chemistry III (A) FA15204 128 83.9% 89.5% 7.95 B (3.17) B- (2.76)
Ternansky, Robert J. CHEM 143A - Organic Chemistry Laboratory (A) FA15410 186 82.7% 85.1% 6.63 B (3.21) B (3.09)
Albizati, Kim F. CHEM 143C - Organic Chemistry Laboratory (A) FA1566 31 96.7% 100.0% 6.17 B+ (3.30) B (3.29)
Weizman, Haim CHEM 143D - Molecular Design & Synthesis (A) FA159 3 100.0% 100.0% 7.17 B+ (3.33) N/A
Theodorakis, Emmanouil CHEM 152 - Synthetic Methods/Organic Chem (A) FA1522 10 100.0% 100.0% 4.50 B+ (3.63) A- (3.92)
Tor, Yitzhak CHEM 154 - Mechanisms/Organic Reactions (A) FA1538 14 92.3% 100.0% 5.83 B+ (3.33) B+ (3.41)
Pomeroy, Robert S. CHEM 171 - Environmental Chemistry I (A) FA15110 46 86.7% 88.9% 5.80 B (3.07) B- (2.72)
Albizati, Kim F. CHEM 192 - Sr Seminar in Chem & Biochem (A) FA1518 10 100.0% 100.0% 2.72 A (4.00) N/A
Hoeger, Carl CHEM 4 - Basic Chemistry (A) FA15245 146 88.9% 89.6% 6.89 B- (2.73) B- (2.96)
Zimmermann, Joerg CHEM 6A - General Chemistry I (A) FA15342 229 85.8% 64.7% 6.72 B (3.03) B (3.09)
Crowell, John E CHEM 6A - General Chemistry I (B) FA15413 228 81.7% 34.9% 6.99 B- (2.98) B- (2.79)
Dembinski, Holly CHEM 6A - General Chemistry I (C) FA15355 183 86.6% 55.5% 6.25 B (3.02) B- (2.94)
Johnson, Christina A CHEM 6A - General Chemistry I (D) FA15422 230 94.3% 98.1% 6.86 B (3.26) B (3.16)
Bussey, Thomas J CHEM 6A - General Chemistry I (E) FA15404 246 95.3% 95.3% 6.46 B (3.28) B- (2.97)
Crowell, John E CHEM 6A - General Chemistry I (F) FA15352 191 76.9% 38.7% 7.22 B (3.04) B- (2.79)
Bussey, Thomas J CHEM 6A - General Chemistry I (G) FA15359 195 93.0% 97.3% 6.20 B (3.27) B- (2.97)
Kim, Judy E. CHEM 6AH - Honors General Chemistry I (A) FA15157 98 63.0% 91.3% 8.74 B (3.12) B (3.17)
Hoeger, Carl CHEM 6B - General Chemistry II (A) FA15220 89 89.0% 89.0% 7.83 B- (2.91) C+ (2.64)
Johnson, Christina A CHEM 6C - General Chemistry III (A) FA15356 144 89.6% 94.8% 8.29 B- (2.91) C+ (2.64)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (A) FA15268 121 80.0% 89.0% 5.88 B (3.25) B (3.04)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (B) FA15266 105 83.5% 87.6% 6.50 B+ (3.35) B (3.04)
Hamaoka, Brent Y CHEM 7L - General Chemistry Laboratory (C) FA15132 60 94.6% 82.1% 7.01 B+ (3.35) B+ (3.42)
Brydges, Stacey CHEM 87 - Freshman Seminar (B) FA1514 9 100.0% 100.0% 1.00 A (4.00) N/A
Albizati, Kim F. CHEM 87 - Freshman Seminar (C) FA1515 8 100.0% 100.0% 0.50 A (4.00) N/A
Doolittle, Russell F. CHEM 87 - Freshman Seminar (D) FA1516 12 83.3% 83.3% 0.83 A (4.00) N/A
Hamaoka, Brent Y CHEM 108 - Protein Biochemistry Lab (A) S21516 11 90.9% 100.0% 10.68 B (3.10) N/A
Ternansky, Robert J. CHEM 140A - Organic Chemistry I (A) S21568 23 73.9% 82.6% 16.41 B (3.00) B- (2.79)
Hammons, Justin Charles CHEM 140A - Organic Chemistry I (B) S21525 24 100.0% 90.9% 13.55 B+ (3.43) B+ (3.32)
Oconnor, Joseph M. CHEM 140B - Organic Chemistry II (B) S215156 29 69.0% 93.1% 14.22 B (3.10) C+ (2.59)
Albizati, Kim F. CHEM 140C - Organic Chemistry III (A) S215117 25 92.0% 100.0% 10.17 B (3.17) C+ (2.68)
Pomeroy, Robert S. CHEM 6A - General Chemistry I (A) S21544 16 92.9% 100.0% 9.21 B+ (3.67) B- (2.80)
Johnson, Christina A CHEM 6B - General Chemistry II (A) S21534 10 90.0% 100.0% 9.30 C+ (2.56) C+ (2.53)
Johnson, Christina A CHEM 6C - General Chemistry III (A) S21592 23 84.2% 94.7% 12.18 B (3.26) B- (2.72)
Dembinski, Holly CHEM 11 - The Periodic Table (A) S11527 13 100.0% 100.0% 5.88 A- (3.78) B+ (3.64)
Bussey, Thomas J CHEM 114A - Biochemical Structure&Function (A) S11539 11 100.0% 100.0% 8.86 B (3.18) B (3.04)
Oconnor, Joseph M. CHEM 140A - Organic Chemistry I (B) S115141 29 77.8% 85.2% 11.02 B (3.15) C+ (2.68)
Weizman, Haim CHEM 140B - Organic Chemistry II (A) S115210 45 88.6% 100.0% 9.59 B (3.27) B- (2.82)
Albizati, Kim F. CHEM 140C - Organic Chemistry III (A) S115101 22 85.0% 100.0% 11.40 B- (2.79) C+ (2.61)
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (A) S11572 12 100.0% 90.0% 9.70 B+ (3.50) B (3.07)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) S11528 17 94.1% 100.0% 6.85 B (3.29) B (3.29)
Hoeger, Carl CHEM 6A - General Chemistry I (A) S11543 14 84.6% 92.3% 9.00 B+ (3.36) C+ (2.67)
Bussey, Thomas J CHEM 6B - General Chemistry II (A) S11545 9 88.9% 88.9% 8.50 B (3.22) C+ (2.63)
Hoeger, Carl CHEM 6C - General Chemistry III (A) S11572 22 85.7% 95.2% 9.30 B (3.00) B- (2.96)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (A) S115176 59 87.2% 83.0% 8.88 B+ (3.36) B (3.01)
Leigh, Brian CHEM 7L - General Chemistry Laboratory (B) S115133 43 90.2% 95.1% 8.60 B+ (3.38) B- (2.96)
Leigh, Brian CHEM 100A - Analytical Chemistry Lab (A) SP1562 28 83.3% 83.3% 7.28 B (3.05) B- (2.79)
Pomeroy, Robert S. CHEM 100B - Instrumental Chemistry Lab (A) SP1525 9 87.5% 87.5% 12.50 B (3.13) B- (2.98)
Crowell, John E CHEM 105A - Physical Chemistry Laboratory (A) SP1542 16 53.3% 60.0% 10.10 B (3.00) B- (2.97)
Zimmermann, Joerg CHEM 105A - Physical Chemistry Laboratory (B) SP1510 7 83.3% 100.0% 10.17 B+ (3.33) N/A
Mrse, Anthony Adrian CHEM 108 - Protein Biochemistry Lab (A) SP1546 18 82.4% 94.1% 8.85 B+ (3.56) B+ (3.40)
Wang, Wei CHEM 11 - The Periodic Table (A) SP15158 58 75.4% 56.1% 4.08 B+ (3.64) B- (2.95)
Komives, Elizabeth A CHEM 113 - Physical Chem/Biol Macromolec (A) SP1521 6 100.0% 100.0% 7.30 A (4.00) A- (3.80)
Wollman, Roy CHEM 114B - Biochem Energetics&Metabolism (A) SP1532 23 77.3% 81.8% 6.50 B+ (3.33) B (3.06)
Joseph, Simpson CHEM 114C - Biosynthesis of Macromolecules (A) SP15174 55 88.0% 86.0% 6.24 B+ (3.38) B- (2.81)
Rinehart, Jeffrey Dennis CHEM 120A - Inorganic Chemistry I (A) SP15103 50 87.5% 95.8% 7.00 B+ (3.31) B- (2.88)
Sailor, Michael Joseph CHEM 120B - Inorganic Chemistry II (A) SP1548 22 86.4% 90.9% 5.26 B+ (3.45) B (3.17)
Crowell, John E CHEM 126 - Physical Chem: Quantum Mech (A) SP1563 25 56.0% 48.0% 6.95 B (3.00) C+ (2.59)
Tauber, Michael CHEM 127 - Physical Chem: Thermodynamics (A) SP1559 27 88.9% 85.2% 6.57 B (3.08) C+ (2.66)
Opella, Stanley J CHEM 13 - Chemistry of Life (A) SP1551 18 62.5% 87.5% 4.00 B- (2.88) B- (2.95)
Galperin, Michael CHEM 132 - Chem Physics: Stat Thermo II (A) SP1535 14 71.4% 100.0% 6.65 B (3.00) C+ (2.67)
Ternansky, Robert J. CHEM 140A - Organic Chemistry I (A) SP15218 89 74.4% 79.1% 9.86 B- (2.77) C+ (2.60)
Molinski, Tadeusz CHEM 140B - Organic Chemistry II (A) SP15118 38 60.5% 28.9% 8.55 C+ (2.59) C+ (2.63)
Whitesell, James K. CHEM 140B - Organic Chemistry II (B) SP15389 153 71.9% 48.9% 5.80 B (3.25) B- (2.73)
Albizati, Kim F. CHEM 140C - Organic Chemistry III (A) SP15383 128 88.0% 94.9% 8.21 B (3.22) B- (2.74)
Hoeger, Carl CHEM 140C - Organic Chemistry III (B) SP15111 49 72.3% 83.0% 8.23 B- (2.93) B- (2.89)
Tor, Yitzhak CHEM 140CH - Honors Organic Chemistry (A) SP1548 25 91.3% 95.7% 7.68 B+ (3.43) A- (3.72)
Albizati, Kim F. CHEM 143A - Organic Chemistry Laboratory (A) SP15367 130 90.8% 96.7% 6.42 B+ (3.39) B (3.05)
Albizati, Kim F. CHEM 143A - Organic Chemistry Laboratory (B) SP1589 31 96.6% 100.0% 8.22 B (3.27) B (3.05)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) SP1584 36 88.2% 94.1% 6.85 B (3.09) B (3.25)
Burkart, Michael D CHEM 157 - Natural Products Chemistry (A) SP1536 11 90.9% 72.7% 5.59 B- (2.82) B (3.06)
Perrin, Charles L. CHEM 158 - Applied Spectroscopy (A) SP1511 9 66.7% 88.9% 6.28 B (3.25) N/A
Baker, Timothy Stanley CHEM 164 - Structural Biology of Viruses (A) SP1543 17 81.3% 100.0% 5.30 B+ (3.63) B (3.21)
Swift, Robert Vernon CHEM 167 - Medicinal Chemistry (A) SP1524 10 100.0% 100.0% 6.06 B+ (3.56) B (3.20)
Evan, Amato Tomas CHEM 173 - Atmospheric Chemistry (A) SP159 4 100.0% 100.0% 6.50 B (3.00) N/A
Molina, Mario CHEM 173 - Atmospheric Chemistry (A) SP159 4 100.0% 100.0% 6.50 B (3.00) N/A
Prather, Kimberly A CHEM 173 - Atmospheric Chemistry (A) SP159 4 100.0% 100.0% 6.50 B (3.00) N/A
Ramanathan, Veerabhadran CHEM 173 - Atmospheric Chemistry (A) SP159 4 100.0% 100.0% 6.50 B (3.00) N/A
Bussey, Thomas J CHEM 188 - Capstone Sem in Science Eductn (A) SP157 5 100.0% 100.0% 5.30 A (4.00) N/A
Zimmermann, Joerg CHEM 6A - General Chemistry I (A) SP15125 47 84.1% 59.1% 4.59 B (3.00) C+ (2.64)
Johnson, Christina A CHEM 6B - General Chemistry II (A) SP15373 165 84.8% 91.8% 7.67 B- (2.83) C+ (2.64)
Hamaoka, Brent Y CHEM 6B - General Chemistry II (B) SP15176 61 85.7% 71.4% 5.88 B- (2.82) C+ (2.46)
Hoeger, Carl CHEM 6C - General Chemistry III (A) SP15247 109 89.7% 86.9% 7.29 B- (2.98) B- (2.85)
Brydges, Stacey CHEM 6C - General Chemistry III (B) SP15400 177 90.1% 98.3% 6.28 B (3.20) B (3.11)
Pomeroy, Robert S. CHEM 6C - General Chemistry III (C) SP15300 139 84.3% 64.2% 6.19 B (3.11) B- (2.94)
Johnson, Christina A CHEM 6C - General Chemistry III (D) SP15396 184 88.8% 91.6% 8.31 B (3.07) B- (2.95)
Kubiak, Clifford Paul CHEM 6CH - Honors General Chemistry III (A) SP1571 39 91.9% 91.9% 6.93 B (3.25) B (3.27)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (A) SP15266 91 83.9% 85.1% 5.66 B (3.29) B- (2.96)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (B) SP15270 96 83.5% 89.0% 6.25 B (3.05) B- (2.96)
Brydges, Stacey CHEM 7LM - General Chemistry Lab - Majors (A) SP1594 57 91.1% 91.1% 9.75 B+ (3.38) B+ (3.58)
Albizati, Kim F. CHEM 87 - Freshman Seminar (A) SP1510 5 100.0% 100.0% 0.50 A (4.00) N/A
Tukey, Robert H CHEM 92 - Undergrad Pharmacology Seminar (A) SP15121 52 95.7% 97.9% 1.43 A (4.00) N/A
Kummel, Andrew C CHEM 93 - Cancer Therapeutic/Diagnostic (0) SP155 3 100.0% 100.0% 4.50 A (4.00) N/A
Bussey, Thomas J CHEM 96 - Introductn to Teaching Science (A) SP156 4 100.0% 100.0% 3.00 A (4.00) N/A
Tauber, Michael CHEM 100A - Analytical Chemistry Lab (A) WI1545 25 68.2% 45.5% 9.55 B- (2.76) B- (2.78)
Pomeroy, Robert S. CHEM 100B - Instrumental Chemistry Lab (A) WI1516 9 71.4% 85.7% 11.17 B (3.29) N/A
Magde, Douglas CHEM 105A - Physical Chemistry Laboratory (A) WI1545 14 83.3% 91.7% 9.59 B (3.09) B (3.01)
Zimmermann, Joerg CHEM 105A - Physical Chemistry Laboratory (A) WI1545 14 83.3% 83.3% 9.59 B (3.09) B (3.01)
Johnson, Christina A CHEM 109 - Recombinant DNA Laboratory (A) WI1579 29 96.3% 96.3% 9.54 B+ (3.46) B+ (3.39)
Toor, Navtej CHEM 114A - Biochemical Structure&Function (A) WI15104 53 94.1% 96.1% 6.15 B (3.24) B- (2.99)
Komives, Elizabeth A CHEM 114B - Biochem Energetics&Metabolism (A) WI15134 58 85.2% 96.3% 6.96 B (3.21) B (3.26)
Devaraj, Neal Krishna CHEM 116 - Chemical Biology (A) WI1525 6 83.3% 100.0% 6.50 B+ (3.60) B+ (3.40)
Tukey, Robert H CHEM 118 - Pharmacology and Toxicology (A) WI15118 45 92.1% 86.8% 5.87 B+ (3.34) B- (2.84)
Dibrov, Sergey M CHEM 12 - Molecules and Reactions (A) WI15149 125 69.6% 75.2% 4.60 B- (2.94) B- (2.78)
Figueroa, Joshua CHEM 120A - Inorganic Chemistry I (A) WI15123 62 86.7% 93.3% 6.31 B (3.23) B- (2.71)
Sailor, Michael Joseph CHEM 123 - Advanced Inorganic Chem Lab (A) WI1512 5 100.0% 100.0% 3.30 A- (3.80) N/A
Tezcan, Faik CHEM 125 - Bioinorganic Chemistry (A) WI1510 4 100.0% 100.0% 8.50 A- (3.75) N/A
Paesani, Francesco CHEM 126 - Physical Chem: Quantum Mech (A) WI15149 65 64.5% 90.3% 8.57 B (3.08) C+ (2.58)
Weare, John H. CHEM 131 - Chem Physics: Stat Thermo I (A) WI1562 32 63.3% 20.0% 8.09 B (3.00) B- (2.93)
Bertrand, Guy CHEM 140A - Organic Chemistry I (A) WI15408 175 92.6% 96.9% 6.18 B+ (3.35) B- (2.78)
Gianneschi, Nathan CHEM 140A - Organic Chemistry I (B) WI15320 129 86.1% 75.4% 7.41 B- (2.76) C+ (2.45)
Guerrero, Carlos Ariel CHEM 140B - Organic Chemistry II (A) WI15278 108 77.5% 73.5% 8.82 B (3.00) C+ (2.55)
Whitesell, James K. CHEM 140B - Organic Chemistry II (B) WI15267 92 87.4% 62.1% 6.71 B+ (3.36) B- (2.73)
Theodorakis, Emmanouil CHEM 140B - Organic Chemistry II (C) WI15306 145 75.6% 88.1% 7.61 B- (2.72) B (3.00)
Weizman, Haim CHEM 140BH - Honors Organic Chemistry (A) WI1542 21 100.0% 95.2% 7.55 A- (3.76) A- (3.74)
Godula, Kamil CHEM 140C - Organic Chemistry III (A) WI15118 48 83.0% 87.2% 6.72 B (3.11) B- (2.75)
Ternansky, Robert J. CHEM 143A - Organic Chemistry Laboratory (A) WI15306 131 87.7% 87.7% 6.50 B (3.17) B (3.08)
Albizati, Kim F. CHEM 143A - Organic Chemistry Laboratory (B) WI15106 40 89.5% 94.7% 7.74 B (3.24) B (3.11)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) WI1588 42 95.0% 90.0% 6.50 B (3.28) B+ (3.37)
Burkart, Michael D CHEM 145 - Biofuels (A) WI157 3 100.0% 100.0% 6.50 B (3.00) N/A
Theodorakis, Emmanouil CHEM 151 - Molecules That Changed World (A) WI1548 18 88.2% 29.4% 3.56 B (3.29) B+ (3.70)
Weizman, Haim CHEM 151 - Molecules That Changed World (A) WI1549 18 88.2% 100.0% 3.56 B (3.29) B+ (3.70)
Devaraj, Neal Krishna CHEM 168 - Drug Synthesis and Design (A) WI1522 5 100.0% 100.0% 3.70 B+ (3.60) B+ (3.40)
Pomeroy, Robert S. CHEM 172 - Environmental Chemistry II (A) WI1532 12 81.8% 90.9% 8.68 B (3.18) B- (2.93)
Bussey, Thomas J CHEM 187 - Foundn of Teach&Learn Science (A) WI156 5 100.0% 100.0% 6.50 A (4.00) N/A
Albizati, Kim F. CHEM 192 - Sr Seminar in Chem & Biochem (A) WI1518 6 100.0% 100.0% 0.50 A (4.00) N/A
Newsam, John CHEM 194 - Special Topics in Chemistry (A) WI1514 12 100.0% 100.0% 2.33 A- (3.91) N/A
Bussey, Thomas J CHEM 6A - General Chemistry I (A) WI15262 148 90.0% 92.1% 6.49 B (3.15) B- (2.70)
Hoeger, Carl CHEM 6A - General Chemistry I (B) WI15101 43 92.7% 95.1% 7.01 B- (2.78) C+ (2.56)
Johnson, Christina A CHEM 6A - General Chemistry I (C) WI15284 128 90.2% 95.1% 6.65 B- (2.82) C+ (2.69)
Trogler, William C CHEM 6B - General Chemistry II (A) WI15352 181 91.1% 75.7% 5.90 B (3.30) B- (2.98)
Kummel, Andrew C CHEM 6B - General Chemistry II (B) WI15388 211 91.3% 83.5% 6.81 B (3.09) B- (2.75)
Muller, Ulrich K. CHEM 6B - General Chemistry II (C) WI15372 196 91.1% 86.1% 5.05 B+ (3.42) B- (2.87)
Leigh, Brian CHEM 6B - General Chemistry II (D) WI15356 175 91.3% 95.3% 6.28 B (3.20) B- (2.77)
Hoeger, Carl CHEM 6B - General Chemistry II (E) WI15399 201 90.6% 83.3% 7.54 B (3.05) B- (2.84)
Paesani, Francesco CHEM 6BH - Honors General Chemistry II (A) WI1597 61 84.2% 93.0% 7.21 B (3.22) B (3.28)
Ghosh, Partho CHEM 6C - General Chemistry III (A) WI15305 126 83.2% 85.7% 6.48 B- (2.94) C+ (2.63)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (A) WI15260 96 92.4% 82.6% 6.10 B (3.29) B (3.02)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (B) WI15267 103 86.3% 84.2% 5.87 B+ (3.34) B (3.02)
Brydges, Stacey CHEM 7LM - General Chemistry Lab - Majors (A) WI1587 47 83.0% 89.4% 8.50 B (3.11) B+ (3.31)
Albizati, Kim F. CHEM 87 - Freshman Seminar (A) WI1511 9 100.0% 100.0% 0.50 N/A N/A
Weizman, Haim CHEM 87 - Freshman Seminar (B) WI1518 12 100.0% 100.0% 0.50 N/A N/A
Evan, Amato Tomas CHEM 87 - Freshman Seminar (C) WI153 3 100.0% 100.0% 1.83 N/A N/A
Prather, Kimberly A CHEM 87 - Freshman Seminar (C) WI153 3 100.0% 100.0% 1.83 N/A N/A
Ramanathan, Veerabhadran CHEM 87 - Freshman Seminar (C) WI153 3 100.0% 100.0% 1.83 N/A N/A
Bussey, Thomas J CHEM 96 - Introductn to Teaching Science (A) WI1510 6 100.0% 100.0% 4.10 B+ (3.60) N/A
Pomeroy, Robert S. CHEM 100A - Analytical Chemistry Lab (A) FA1488 36 84.8% 87.9% 8.94 B (3.19) B- (2.80)
Xiong, Wei CHEM 105A - Physical Chemistry Laboratory (A) FA1437 18 87.5% 68.8% 8.00 B+ (3.50) B (3.01)
Ghosh, Gourisankar CHEM 108 - Protein Biochemistry Lab (A) FA1478 29 100.0% 88.0% 5.54 A- (3.72) B+ (3.50)
Dibrov, Sergey M CHEM 11 - The Periodic Table (A) FA14266 133 69.6% 64.3% 4.68 B (3.24) B (3.14)
Jennings, Patricia A. CHEM 114A - Biochemical Structure&Function (A) FA14245 91 76.7% 30.2% 6.23 B+ (3.31) B (3.26)
Ghosh, Gourisankar CHEM 114D - Molecular & Cellular Biochem (A) FA1433 12 100.0% 100.0% 9.17 A- (3.82) B+ (3.64)
Tauber, Michael CHEM 127 - Physical Chem: Thermodynamics (A) FA14149 60 77.8% 75.9% 8.58 B (3.15) B- (2.71)
Sinha, Amitabha CHEM 130 - Chem Physics: Quantum Mech (B) FA1479 42 60.0% 80.0% 8.24 B- (2.92) C+ (2.58)
Oconnor, Joseph M. CHEM 140A - Organic Chemistry I (A) FA14362 162 77.1% 80.7% 10.08 B (3.06) B- (2.81)
Yang, Jerry CHEM 140A - Organic Chemistry I (B) FA14264 102 84.0% 63.8% 7.98 B- (2.98) C+ (2.62)
Ternansky, Robert J. CHEM 140A - Organic Chemistry I (C) FA14214 114 86.2% 89.9% 10.01 B- (2.92) B- (2.74)
Reyes-Rodriguez, Gabriel J CHEM 140A - Organic Chemistry I (D) FA14352 190 88.2% 91.1% 8.28 B (3.07) B- (2.71)
Albizati, Kim F. CHEM 140B - Organic Chemistry II (A) FA14311 105 85.6% 98.9% 7.56 B (3.03) C+ (2.57)
Hermann, Thomas CHEM 140C - Organic Chemistry III (A) FA14275 169 86.0% 91.7% 7.32 B (3.11) B- (2.76)
Albizati, Kim F. CHEM 143A - Organic Chemistry Laboratory (A) FA14335 133 87.0% 98.3% 7.45 B (3.29) B- (2.99)
Albizati, Kim F. CHEM 143A - Organic Chemistry Laboratory (B) FA14117 30 89.3% 100.0% 6.35 B+ (3.37) B- (2.99)
Ternansky, Robert J. CHEM 143C - Organic Chemistry Laboratory (B) FA1473 30 92.3% 100.0% 8.35 B+ (3.35) B (3.29)
Guerrero, Carlos Ariel CHEM 152 - Synthetic Methods/Organic Chem (A) FA1426 6 83.3% 83.3% 8.17 B (3.00) B (3.15)
Tor, Yitzhak CHEM 154 - Mechanisms/Organic Reactions (A) FA1449 18 100.0% 100.0% 7.61 B+ (3.39) B+ (3.34)
Collins, Douglas Bradford CHEM 171 - Environmental Chemistry I (A) FA1464 28 96.2% 88.5% 7.14 B (3.08) C+ (2.69)
Albizati, Kim F. CHEM 192 - Sr Seminar in Chem & Biochem (A) FA1416 3 100.0% 100.0% 1.17 N/A N/A
Hoeger, Carl CHEM 4 - Basic Chemistry (A) FA14304 168 88.9% 91.7% 6.12 B- (2.78) B- (2.76)
Hoeger, Carl CHEM 6A - General Chemistry I (A) FA14404 254 94.9% 89.9% 7.20 B (3.10) B- (2.96)
Crowell, John E CHEM 6A - General Chemistry I (B) FA14407 220 83.0% 52.1% 6.83 B (3.14) B- (2.95)
Bussey, Thomas J CHEM 6A - General Chemistry I (C) FA14419 266 95.3% 95.7% 6.12 B+ (3.35) B (3.24)
Johnson, Christina A CHEM 6A - General Chemistry I (D) FA14413 226 90.7% 95.9% 7.72 B (3.14) B (3.07)
Zimmermann, Joerg CHEM 6A - General Chemistry I (E) FA14319 204 87.5% 64.8% 6.29 B (3.16) B- (2.94)
Hamaoka, Brent Y CHEM 6A - General Chemistry I (F) FA14316 204 94.1% 88.8% 5.57 B+ (3.51) B (3.11)
Crowell, John E CHEM 6A - General Chemistry I (G) FA14349 190 86.0% 44.6% 6.68 B (3.14) B- (2.95)
Kim, Judy E. CHEM 6AH - Honors General Chemistry I (A) FA14179 116 69.4% 85.7% 8.17 B+ (3.30) B (3.16)
Hamaoka, Brent Y CHEM 6B - General Chemistry II (A) FA14310 127 92.2% 80.0% 7.04 B (3.04) C+ (2.62)
Johnson, Christina A CHEM 6C - General Chemistry III (A) FA14415 169 83.4% 94.5% 8.15 B- (2.85) C+ (2.68)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (A) FA14269 101 86.2% 86.2% 6.13 B+ (3.40) B (3.01)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (B) FA14262 91 77.1% 83.1% 6.94 B+ (3.43) B (3.01)
Albizati, Kim F. CHEM 87 - Freshman Seminar (A) FA1419 13 92.3% 92.3% 0.50 N/A N/A
Brydges, Stacey CHEM 87 - Freshman Seminar (B) FA1418 12 100.0% 100.0% 1.50 A (4.00) N/A
Blum, Angela Patricia CHEM 12 - Molecules and Reactions (A) S21418 13 100.0% 100.0% 4.04 B+ (3.36) N/A
Ternansky, Robert J. CHEM 140A - Organic Chemistry I (A) S21458 32 90.6% 93.8% 14.06 B (3.00) C+ (2.63)
Oconnor, Joseph M. CHEM 140B - Organic Chemistry II (A) S214118 11 90.9% 90.9% 14.72 B (3.20) B- (2.73)
Albizati, Kim F. CHEM 140C - Organic Chemistry III (A) S214173 42 85.4% 97.6% 10.26 B (3.20) C+ (2.59)
Hamaoka, Brent Y CHEM 6A - General Chemistry I (A) S21453 14 91.7% 83.3% 8.67 B+ (3.36) C+ (2.54)
Johnson, Christina A CHEM 6B - General Chemistry II (A) S21461 14 71.4% 100.0% 9.07 B- (2.93) B- (2.73)
Johnson, Christina A CHEM 6C - General Chemistry III (A) S214155 31 79.3% 96.6% 9.60 B- (2.93) B- (2.85)
Pomeroy, Robert S. CHEM 100A - Analytical Chemistry Lab (A) S11418 6 100.0% 100.0% 14.10 B+ (3.40) N/A
Hamaoka, Brent Y CHEM 108 - Protein Biochemistry Lab (A) S11423 6 100.0% 100.0% 10.50 B+ (3.50) B (3.16)
Fusco, Amanda J. CHEM 114A - Biochemical Structure&Function (A) S11473 16 64.3% 85.7% 6.81 B (3.14) C+ (2.50)
Oconnor, Joseph M. CHEM 140A - Organic Chemistry I (A) S114132 26 92.0% 92.0% 12.33 B+ (3.38) B- (2.80)
Weizman, Haim CHEM 140B - Organic Chemistry II (A) S114113 17 93.3% 93.3% 12.36 B (3.13) B- (2.83)
Albizati, Kim F. CHEM 140C - Organic Chemistry III (A) S114127 15 86.7% 100.0% 11.83 B+ (3.47) B- (2.72)
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (A) S11457 12 90.9% 90.9% 11.05 B- (2.82) B (3.00)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) S11435 15 86.7% 93.3% 7.03 B (3.00) B+ (3.44)
Hoeger, Carl CHEM 6A - General Chemistry I (A) S11464 17 100.0% 80.0% 8.77 B (3.14) B- (2.75)
Leigh, Brian CHEM 6B - General Chemistry II (A) S11450 12 100.0% 100.0% 8.30 B+ (3.33) B- (2.73)
Hoeger, Carl CHEM 6C - General Chemistry III (A) S114120 24 82.6% 91.3% 8.41 B- (2.73) B (3.12)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (A) S114179 45 90.5% 90.5% 9.79 B (3.29) B- (2.96)
Martz, Todd R. CHEM 100A - Analytical Chemistry Lab (A) SP1473 32 71.4% 78.6% 7.14 B+ (3.50) B+ (3.31)
Pomeroy, Robert S. CHEM 100B - Instrumental Analysis (A) SP1422 9 87.5% 100.0% 6.25 B- (2.88) B- (2.77)
Pomeroy, Robert S. CHEM 100BL - Instrumental Analysis Lab (A) SP1422 7 71.4% 100.0% 10.21 B- (2.86) B- (2.97)
Kim, Judy E. CHEM 105A - Physical Chemistry Laboratory (A) SP1438 12 66.7% 100.0% 7.17 B+ (3.33) B- (2.92)
Crowell, John E CHEM 105A - Physical Chemistry Laboratory (B) SP1443 13 83.3% 58.3% 6.86 B+ (3.36) B- (2.89)
Huang, Xuemei CHEM 108 - Protein Biochemistry Lab (A) SP1459 23 90.0% 95.0% 11.30 B+ (3.50) B+ (3.37)
Mrse, Anthony Adrian CHEM 108 - Protein Biochemistry Lab (A) SP1459 16 85.7% 100.0% 10.64 B+ (3.50) N/A
Brydges, Stacey CHEM 11 - The Periodic Table (A) SP14184 92 89.7% 98.9% 4.38 B (3.26) B+ (3.30)
Komives, Elizabeth A CHEM 113 - Physical Chem/Biol Macromolec (A) SP1424 12 100.0% 100.0% 5.83 B+ (3.67) A- (3.88)
Walker, Ross Charles CHEM 113 - Physical Chem/Biol Macromolec (A) SP1424 10 100.0% 100.0% 5.83 B+ (3.60) A- (3.88)
Wollman, Roy CHEM 114B - Biochem Energetics&Metabolism (A) SP1452 26 95.5% 90.9% 7.59 B+ (3.45) B (3.22)
Joseph, Simpson CHEM 114C - Biosynthesis of Macromolecules (A) SP14204 59 76.8% 76.8% 8.03 B (3.24) C+ (2.65)
Tezcan, Faik CHEM 120A - Inorganic Chemistry I (A) SP14111 39 70.3% 78.4% 6.68 B (3.03) C (2.26)
Opella, Stanley J CHEM 13 - Chemistry of Life (A) SP1463 20 75.0% 75.0% 4.40 B (3.25) B- (2.81)
Galperin, Michael CHEM 133 - Chemical Physics: Quantum Mech (A) SP1481 31 54.8% 74.2% 11.63 C+ (2.60) C+ (2.49)
Whitesell, James K. CHEM 140A - Organic Chemistry I (A) SP14245 69 78.1% 51.6% 6.56 B (3.11) C+ (2.54)
Theodorakis, Emmanouil CHEM 140B - Organic Chemistry II (A) SP14371 106 81.6% 94.9% 7.59 B- (2.99) C+ (2.65)
Whitesell, James K. CHEM 140B - Organic Chemistry II (B) SP14389 103 76.8% 48.4% 6.52 B (3.11) C+ (2.65)
Hoeger, Carl CHEM 140C - Organic Chemistry III (A) SP14299 96 83.7% 84.8% 9.65 B (3.14) B (3.04)
Ternansky, Robert J. CHEM 140C - Organic Chemistry III (B) SP14120 64 95.3% 93.8% 10.23 B (3.04) C+ (2.69)
Tor, Yitzhak CHEM 140CH - Honors Organic Chemistry (A) SP1462 26 92.3% 100.0% 7.88 B+ (3.48) B+ (3.65)
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (B) SP14335 115 92.2% 85.4% 6.32 B (3.28) B- (2.97)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) SP14108 40 86.1% 86.1% 8.16 B (3.00) B (3.25)
Weizman, Haim CHEM 143D - Molecular Design & Synthesis (A) SP1413 5 80.0% 80.0% 8.00 B (3.25) N/A
Perrin, Charles L. CHEM 146 - Kinetics & Mechan of Org React (A) SP1422 8 75.0% 87.5% 3.25 B- (2.88) B+ (3.42)
Burkart, Michael D CHEM 157 - Natural Products Chemistry (A) SP1470 21 85.7% 95.2% 5.74 B (3.29) B- (2.97)
Molinski, Tadeusz CHEM 158 - Applied Spectroscopy (A) SP149 5 60.0% 40.0% 7.30 B (3.20) N/A
Baker, Timothy Stanley CHEM 164 - Structural Biology of Viruses (A) SP1433 12 83.3% 91.7% 6.33 B (3.27) B (3.10)
AMARO, ROMMIE CHEM 167 - Medicinal Chemistry (A) SP1467 48 91.3% 87.0% 5.26 B+ (3.30) B+ (3.47)
Prather, Kimberly A CHEM 173 - Atmospheric Chemistry (A) SP1411 6 80.0% 40.0% 5.30 B (3.00) N/A
Dickson, Andrew Gilmore CHEM 174 - Chem Prin of Marine Systems (A) SP1432 7 100.0% 85.7% 5.64 B+ (3.57) B- (2.87)
Czworkowski, John CHEM 188 - Capstone Sem in Science Eductn (A) SP145 4 100.0% 100.0% 4.00 B+ (3.50) N/A
Albizati, Kim F. CHEM 192 - Sr Seminar in Chem & Biochem (A) SP1416 5 100.0% 100.0% 0.50 N/A N/A
Johnson, Christina A CHEM 6A - General Chemistry I (A) SP14261 85 92.6% 95.1% 7.46 B- (2.82) C+ (2.66)
Crowell, John E CHEM 6B - General Chemistry II (A) SP14372 140 72.1% 54.4% 7.31 B- (2.91) C+ (2.58)
Johnson, Christina A CHEM 6B - General Chemistry II (B) SP14440 187 85.2% 93.4% 7.48 B- (2.92) B- (2.75)
Albizati, Kim F. CHEM 6C - General Chemistry III (A) SP14409 199 90.1% 99.5% 6.17 B (3.19) C+ (2.57)
Hoeger, Carl CHEM 6C - General Chemistry III (B) SP14208 100 90.6% 88.5% 7.48 B (3.04) B- (2.96)
Brydges, Stacey CHEM 6C - General Chemistry III (C) SP14423 201 92.2% 92.2% 6.74 B (3.15) B (3.00)
Ghosh, Gourisankar CHEM 6C - General Chemistry III (D) SP14260 122 80.8% 22.5% 6.52 B- (2.88) B- (2.76)
Kubiak, Clifford Paul CHEM 6CH - Honors General Chemistry III (A) SP1485 45 82.2% 88.9% 6.32 B+ (3.34) B+ (3.42)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (A) SP14266 101 87.2% 86.2% 6.39 B (3.17) B- (2.89)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (B) SP14224 82 83.8% 73.8% 6.47 B+ (3.41) B- (2.89)
Albizati, Kim F. CHEM 87 - Freshman Seminar (A) SP1419 10 88.9% 88.9% 1.00 N/A N/A
Tukey, Robert H CHEM 92 - Undergrad Pharmacology Seminar (A) SP14127 41 97.4% 92.1% 1.36 A (4.00) N/A
Czworkowski, John CHEM 96 - Introductn to Teaching Science (A) SP146 4 75.0% 75.0% 4.00 B+ (3.50) N/A
Lingner, David W CHEM 100A - Analytical Chemistry Lab (A) WI1477 37 71.4% 34.3% 7.01 B (3.03) B- (2.94)
Pomeroy, Robert S. CHEM 100B - Instrumental Analysis (A) WI148 4 100.0% 100.0% 4.50 C+ (2.50) N/A
Pomeroy, Robert S. CHEM 100BL - Instrumental Analysis Lab (A) WI147 3 100.0% 100.0% 8.50 C+ (2.67) N/A
Continetti, Robert E. CHEM 105A - Physical Chemistry Laboratory (A) WI1467 28 85.2% 85.2% 9.73 B+ (3.48) B (3.00)
Johnson, Christina A CHEM 109 - Recombinant DNA Laboratory (A) WI1495 43 95.1% 97.6% 7.96 B (3.24) B+ (3.34)
Toor, Navtej CHEM 114A - Biochemical Structure&Function (A) WI14114 56 96.3% 100.0% 6.84 B+ (3.49) B- (2.86)
Komives, Elizabeth A CHEM 114B - Biochem Energetics&Metabolism (A) WI14230 85 88.9% 96.3% 7.64 B (3.25) B- (2.90)
Devaraj, Neal Krishna CHEM 116 - Chemical Biology (A) WI1436 11 100.0% 90.0% 8.30 B (3.20) B+ (3.41)
Dorrestein, Pieter CHEM 116 - Chemical Biology (A) WI1436 10 90.0% 90.0% 8.30 B (3.00) B+ (3.41)
Tukey, Robert H CHEM 118 - Pharmacology and Toxicology (A) WI14154 62 93.3% 78.3% 4.60 B+ (3.32) B- (2.88)
Fry, Nicole L CHEM 12 - Molecules and Reactions (A) WI14152 68 63.6% 59.1% 4.50 B+ (3.43) B (3.24)
Sailor, Michael Joseph CHEM 120B - Inorganic Chemistry II (A) WI1467 36 88.6% 91.4% 5.95 B+ (3.53) B (3.18)
Tauber, Michael CHEM 127 - Physical Chem: Thermodynamics (A) WI14270 99 68.5% 81.5% 7.10 B (3.10) B- (2.72)
Lindenberg, Katja CHEM 132 - Chem Physics: Stat Thermo II (A) WI1480 37 73.5% 85.3% 8.32 B (3.09) C+ (2.48)
Bertrand, Guy CHEM 140A - Organic Chemistry I (A) WI14303 101 93.7% 96.8% 6.94 B (3.28) B- (2.74)
Albizati, Kim F. CHEM 140A - Organic Chemistry I (B) WI14413 165 91.0% 99.4% 7.57 B (3.16) C+ (2.63)
Ternansky, Robert J. CHEM 140B - Organic Chemistry II (A) WI14285 145 82.0% 89.9% 10.39 B- (2.95) C+ (2.67)
Hoeger, Carl CHEM 140B - Organic Chemistry II (B) WI14327 132 75.4% 83.1% 8.67 B (3.02) B- (2.90)
Hoeger, Carl CHEM 140B - Organic Chemistry II (C) WI14211 87 80.0% 92.5% 10.09 B- (2.94) B- (2.90)
Weizman, Haim CHEM 140BH - Honors Organic Chemistry (A) WI1480 37 97.2% 100.0% 8.06 B+ (3.57) B+ (3.61)
Whitesell, James K. CHEM 140C - Organic Chemistry III (A) WI14113 46 79.1% 76.7% 5.45 B+ (3.51) B- (2.87)
Albizati, Kim F. CHEM 143A - Organic Chemistry Laboratory (A) WI14415 158 95.4% 96.7% 6.97 B+ (3.56) B (3.02)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) WI1498 45 95.6% 84.4% 7.15 B (3.16) B+ (3.32)
Burkart, Michael D CHEM 145 - Biofuels (A) WI1419 10 100.0% 88.9% 5.17 B+ (3.63) N/A
Whitesell, James K. CHEM 151 - Molecules That Changed World (A) WI1469 24 95.8% 91.7% 2.85 A- (3.96) A (4.00)
Gianneschi, Nathan CHEM 156 - Struct&Properties/Organc Molec (A) WI1411 3 100.0% 50.0% 3.50 A (4.00) N/A
Viadiu, Hector CHEM 165 - 3D Elctron Microscopy/Macromol (B) WI1414 9 88.9% 100.0% 5.39 B+ (3.56) N/A
Devaraj, Neal Krishna CHEM 168 - Drug Synthesis and Design (A) WI1443 20 100.0% 100.0% 3.55 A- (3.89) B+ (3.50)
Pomeroy, Robert S. CHEM 172 - Environmental Chemistry II (A) WI1441 12 91.7% 100.0% 6.17 B (3.25) C+ (2.68)
Czworkowski, John CHEM 187 - Foundn of Teach&Learn Science (A) WI1411 8 87.5% 87.5% 3.93 B+ (3.57) N/A
Weizman, Haim CHEM 192 - Sr Seminar in Chem & Biochem (A) WI1414 6 100.0% 100.0% 1.17 N/A N/A
Albizati, Kim F. CHEM 192 - Sr Seminar in Chem & Biochem (B) WI1411 5 100.0% 100.0% 0.50 N/A N/A
Newsam, John CHEM 194 - Special Topics in Chemistry (A) WI148 6 100.0% 100.0% 2.17 A (4.00) N/A
Sinha, Amitabha CHEM 6A - General Chemistry I (A) WI14293 154 82.2% 63.7% 6.36 B- (2.89) C+ (2.49)
Trogler, William C CHEM 6A - General Chemistry I (B) WI14346 196 93.2% 75.8% 5.90 B (3.16) B- (2.85)
Johnson, Christina A CHEM 6A - General Chemistry I (C) WI14409 237 91.2% 95.6% 7.06 B- (2.91) B- (2.88)
Crowell, John E CHEM 6B - General Chemistry II (A) WI14429 245 89.1% 52.5% 6.73 B (3.19) B- (2.75)
Kummel, Andrew C CHEM 6B - General Chemistry II (B) WI14416 229 88.2% 85.0% 7.11 B (3.07) B- (2.70)
Muller, Ulrich K. CHEM 6B - General Chemistry II (C) WI14408 267 87.4% 91.2% 5.42 B+ (3.36) B- (2.98)
Crowell, John E CHEM 6B - General Chemistry II (D) WI14425 244 83.8% 47.9% 6.88 B (3.16) B- (2.75)
Paesani, Francesco CHEM 6BH - Honors General Chemistry II (A) WI14114 68 84.6% 95.4% 6.38 B+ (3.38) B (3.19)
Ghosh, Partho CHEM 6C - General Chemistry III (A) WI14186 76 97.3% 90.4% 6.14 B (3.08) C+ (2.58)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (A) WI14262 96 83.0% 84.1% 7.27 B (3.26) B- (2.78)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (B) WI14224 91 83.8% 81.3% 6.42 B+ (3.40) B- (2.78)
Czworkowski, John CHEM 87 - Freshman Seminar (A) WI149 9 100.0% 88.9% 1.39 A (4.00) N/A
Albizati, Kim F. CHEM 87 - Freshman Seminar (B) WI1414 7 100.0% 100.0% 0.83 N/A N/A
Czworkowski, John CHEM 96 - Introductn to Teaching Science (A) WI149 6 100.0% 100.0% 2.50 A- (3.80) N/A
Pomeroy, Robert S. CHEM 100A - Analytical Chemistry Lab (A) FA13117 50 69.4% 85.7% 7.31 B+ (3.42) B (3.18)
Pomeroy, Robert S. CHEM 100B - Instrumental Analysis (A) FA1319 8 57.1% 85.7% 7.36 B (3.00) N/A
Pomeroy, Robert S. CHEM 100BL - Instrumental Analysis Lab (A) FA1315 4 75.0% 75.0% 10.00 B+ (3.50) N/A
Magde, Douglas CHEM 105A - Physical Chemistry Laboratory (A) FA1339 18 76.5% 94.1% 7.79 B (3.25) B (3.29)
Hamaoka, Brent Y CHEM 108 - Protein Biochemistry Lab (A) FA1346 22 95.2% 100.0% 8.79 B+ (3.43) B (3.13)
Hamaoka, Brent Y CHEM 108 - Protein Biochemistry Lab (B) FA1325 10 100.0% 88.9% 7.17 B+ (3.63) B (3.13)
Lennox, Joseph CHEM 11 - The Periodic Table (A) FA13204 177 82.4% 79.5% 4.78 B+ (3.45) B (3.27)
Jennings, Patricia A. CHEM 114A - Biochemical Structure&Function (A) FA13240 106 86.0% 58.0% 6.89 B+ (3.50) B- (2.88)
Ghosh, Gourisankar CHEM 114D - Molecular & Cellular Biochem (A) FA1331 13 76.9% 84.6% 7.27 B+ (3.55) B (3.12)
Figueroa, Joshua CHEM 120A - Inorganic Chemistry I (A) FA13167 88 81.0% 83.3% 7.51 B+ (3.32) C+ (2.55)
Kim, Judy E. CHEM 126 - Physical Chem: Quantum Mech (A) FA13268 104 65.7% 89.9% 8.77 B (3.04) C+ (2.66)
Paesani, Francesco CHEM 131 - Physical Chemistry (A) FA13135 65 76.9% 86.2% 7.78 B (3.25) C+ (2.64)
Oconnor, Joseph M. CHEM 140A - Organic Chemistry I (A) FA13388 189 80.6% 88.0% 9.51 B (3.20) B- (2.80)
Yang, Jerry CHEM 140A - Organic Chemistry I (B) FA13341 163 81.9% 74.2% 8.75 B (3.06) C+ (2.60)
Ternansky, Robert J. CHEM 140A - Organic Chemistry I (C) FA13244 142 92.9% 91.5% 10.90 B- (2.94) C+ (2.66)
Perrin, Charles L. CHEM 140A - Organic Chemistry I (D) FA13193 92 88.8% 84.3% 8.93 B (3.21) C+ (2.62)
Guerrero, Carlos Ariel CHEM 140B - Organic Chemistry II (A) FA13229 105 72.4% 55.1% 8.52 B- (2.80) C+ (2.58)
Hermann, Thomas CHEM 140C - Organic Chemistry III (A) FA13173 132 78.5% 87.7% 6.87 B (3.07) C+ (2.60)
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (A) FA13391 150 86.9% 91.0% 7.36 B (3.24) B (3.00)
Albizati, Kim F. CHEM 143AH - Honors Organic Chemistry Lab (A) FA1376 35 96.9% 93.8% 8.30 B+ (3.56) B+ (3.49)
Ternansky, Robert J. CHEM 143C - Organic Chemistry Laboratory (A) FA1383 46 97.6% 95.2% 8.01 B+ (3.33) B+ (3.43)
Guerrero, Carlos Ariel CHEM 152 - Synthetic Methods/Organic Chem (A) FA1321 8 75.0% 75.0% 8.00 B (3.00) B- (2.75)
Tor, Yitzhak CHEM 154 - Mechanisms/Organic Reactions (A) FA1347 15 100.0% 100.0% 7.30 B+ (3.53) B+ (3.30)
Bertram, Timothy CHEM 171 - Environmental Chemistry I (A) FA1373 34 78.1% 81.3% 6.13 B (3.00) B (3.04)
Hoeger, Carl CHEM 4 - Basic Chemistry (A) FA13346 221 89.0% 90.0% 6.77 B- (2.95) B- (2.80)
Hoeger, Carl CHEM 6A - General Chemistry I (A) FA13426 263 94.4% 89.6% 7.90 B (3.11) B- (2.78)
Czworkowski, John CHEM 6A - General Chemistry I (B) FA13423 227 89.9% 77.1% 6.29 B (3.28) C+ (2.66)
Czworkowski, John CHEM 6A - General Chemistry I (C) FA13419 255 89.5% 78.7% 6.06 B (3.28) C+ (2.66)
Lennox, Joseph CHEM 6A - General Chemistry I (D) FA13407 372 87.9% 67.7% 7.33 B (3.02) B (3.07)
Johnson, Christina A CHEM 6A - General Chemistry I (E) FA13381 221 94.4% 96.7% 6.89 B (3.08) B (3.03)
Zimmermann, Joerg CHEM 6A - General Chemistry I (F) FA13334 269 93.2% 61.7% 6.28 B (3.15) B- (2.98)
Weare, John H. CHEM 6AH - Honors General Chemistry I (A) FA13189 128 49.6% 31.7% 8.65 B+ (3.33) B+ (3.45)
Albizati, Kim F. CHEM 6B - General Chemistry II (A) FA13222 97 91.4% 95.7% 5.98 B (3.21) B- (2.76)
Johnson, Christina A CHEM 6C - General Chemistry III (A) FA13381 168 94.3% 97.5% 7.71 B (3.08) B- (2.76)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (A) FA13273 107 80.8% 81.7% 6.31 B (3.28) B- (2.84)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (B) FA13272 110 86.9% 85.9% 5.56 B+ (3.30) B- (2.84)
Czworkowski, John CHEM 87 - Freshman Seminar (A) FA1312 8 87.5% 100.0% 1.36 N/A N/A
Weizman, Haim CHEM 87 - Freshman Seminar (B) FA1318 14 92.9% 100.0% 0.79 A (4.00) N/A
Albizati, Kim F. CHEM 87 - Freshman Seminar (C) FA1317 14 92.9% 92.9% 0.50 A (4.00) N/A
Hamaoka, Brent Y CHEM 108 - Protein Biochemistry Lab (A) S21338 13 92.3% 100.0% 11.58 B+ (3.31) B (3.19)
Ternansky, Robert J. CHEM 140A - Organic Chemistry I (A) S21354 24 100.0% 100.0% 15.41 B+ (3.33) C+ (2.69)
Oconnor, Joseph M. CHEM 140B - Organic Chemistry II (A) S213170 31 74.2% 93.5% 10.89 B- (2.93) C+ (2.61)
Albizati, Kim F. CHEM 140C - Organic Chemistry III (A) S213116 19 100.0% 94.7% 8.71 B+ (3.53) C+ (2.62)
Lennox, Joseph CHEM 6A - General Chemistry I (A) S21340 32 90.3% 90.3% 8.89 B (3.14) B- (2.96)
Johnson, Christina A CHEM 6B - General Chemistry II (A) S21339 25 88.0% 96.0% 9.62 B- (2.76) B- (2.87)
Johnson, Christina A CHEM 6C - General Chemistry III (A) S213131 105 94.2% 97.1% 10.08 B (3.04) B- (2.90)
Fusco, Amanda J. CHEM 114A - Biochemical Structure&Function (A) S11382 24 95.5% 95.5% 7.32 B+ (3.59) B- (2.79)
Rios, Andro C CHEM 12 - Molecules and Reactions (A) S11323 9 88.9% 100.0% 4.50 A (4.00) B+ (3.43)
Oconnor, Joseph M. CHEM 140A - Organic Chemistry I (A) S113107 24 82.6% 87.0% 10.15 B (3.09) B- (2.81)
Weizman, Haim CHEM 140B - Organic Chemistry II (A) S113183 44 78.0% 95.1% 9.45 B (3.02) B- (2.80)
Albizati, Kim F. CHEM 140C - Organic Chemistry III (A) S11381 19 88.2% 100.0% 10.85 B+ (3.53) B- (2.74)
Hoeger, Carl CHEM 6A - General Chemistry I (A) S11377 12 81.8% 63.6% 11.05 B+ (3.36) B- (2.88)
Hamaoka, Brent Y CHEM 6B - General Chemistry II (A) S11339 12 72.7% 100.0% 8.50 B- (2.91) C+ (2.56)
Hoeger, Carl CHEM 6C - General Chemistry III (A) S11392 23 94.4% 94.4% 8.61 B (3.00) B- (2.86)
Williams, Renee T CHEM 100A - Analytical Chemistry Lab (A) SP1397 44 61.4% 25.0% 9.95 B (3.19) B (3.24)
Pomeroy, Robert S. CHEM 100B - Instrumental Analysis (A) SP1329 13 92.3% 100.0% 5.12 B (3.15) B- (2.99)
Pomeroy, Robert S. CHEM 100BL - Instrumental Analysis Lab (A) SP1329 13 92.3% 100.0% 7.27 B+ (3.46) B+ (3.33)
Magde, Douglas CHEM 105A - Physical Chemistry Laboratory (A) SP1379 20 52.6% 78.9% 9.76 B (3.21) B (3.18)
Hamaoka, Brent Y CHEM 108 - Protein Biochemistry Lab (A) SP1346 18 76.5% 88.2% 9.32 B (3.24) B (3.09)
Hamaoka, Brent Y CHEM 108 - Protein Biochemistry Lab (B) SP1341 14 100.0% 100.0% 8.36 B+ (3.43) B (3.09)
Lennox, Joseph CHEM 11 - The Periodic Table (A) SP13148 118 87.3% 84.7% 5.15 B (3.21) B (3.19)
Komives, Elizabeth A CHEM 113 - Physical Chem/Biol Macromolec (A) SP1337 13 92.3% 100.0% 8.50 A (4.00) A- (3.75)
Walker, Ross Charles CHEM 113 - Physical Chem/Biol Macromolec (A) SP1337 13 92.3% 100.0% 5.83 A (4.00) A- (3.75)
Joseph, Simpson CHEM 114C - Biosynthesis of Macromolecules (A) SP13337 133 93.0% 92.2% 6.09 B+ (3.51) C+ (2.45)
Tezcan, Faik CHEM 120A - Inorganic Chemistry I (A) SP13179 72 91.5% 83.1% 6.65 B (3.28) C+ (2.61)
Tezcan, Faik CHEM 125 - Bioinorganic Chemistry (A) SP1344 15 66.7% 73.3% 7.17 B- (2.86) C+ (2.52)
Swift, Robert Vernon CHEM 13 - Chemistry of Life (A) SP1381 36 72.2% 94.4% 3.70 B (3.29) B+ (3.49)
Galperin, Michael CHEM 133 - Chemical Physics: Quantum Mech (A) SP13102 33 42.4% 54.5% 9.63 B- (2.82) C+ (2.58)
Albizati, Kim F. CHEM 140A - Organic Chemistry I (A) SP13336 123 91.9% 98.4% 7.05 B (3.07) B- (2.73)
Molinski, Tadeusz CHEM 140B - Organic Chemistry II (A) SP1382 29 79.3% 24.1% 8.71 B (3.11) C (2.01)
Whitesell, James K. CHEM 140B - Organic Chemistry II (B) SP13334 116 79.1% 38.3% 7.91 B (3.03) C+ (2.34)
Albizati, Kim F. CHEM 140C - Organic Chemistry III (A) SP13394 133 88.6% 95.5% 7.17 B (3.28) C+ (2.66)
Ternansky, Robert J. CHEM 140C - Organic Chemistry III (B) SP1377 47 87.2% 100.0% 9.03 B (3.16) C+ (2.67)
Tor, Yitzhak CHEM 140CH - Honors Organic Chemistry (A) SP1328 17 94.1% 94.1% 9.44 B+ (3.47) B+ (3.65)
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (A) SP13438 149 87.7% 90.3% 7.02 B (3.30) B (3.05)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) SP13120 53 81.1% 90.6% 6.77 B (3.14) B+ (3.49)
Weizman, Haim CHEM 143D - Molecular Design & Synthesis (A) SP1316 4 100.0% 100.0% 11.17 B (3.00) N/A
Hermann, Thomas CHEM 157 - Natural Products Chemistry (A) SP1373 21 81.0% 95.2% 6.12 B- (2.95) B- (2.74)
Perrin, Charles L. CHEM 158 - Applied Spectroscopy (A) SP1321 10 80.0% 100.0% 6.30 B- (2.89) B (3.29)
Baker, Timothy Stanley CHEM 164 - Structural Biology of Viruses (A) SP1337 17 88.2% 100.0% 4.75 B+ (3.50) B (3.15)
AMARO, ROMMIE CHEM 167 - Medicinal Chemistry (A) SP1347 29 96.4% 100.0% 5.21 A- (3.73) B+ (3.32)
Axson, Jessica Lynne CHEM 173 - Atmospheric Chemistry (A) SP1315 5 100.0% 100.0% 3.50 B (3.25) N/A
Dickson, Andrew Gilmore CHEM 174 - Chem Prin of Marine Systems (A) SP1339 14 64.3% 71.4% 5.58 B+ (3.31) B- (2.73)
Czworkowski, John CHEM 188 - Capstone Sem in Science Eductn (A) SP1313 4 100.0% 100.0% 5.17 A (4.00) N/A
Crowell, John E CHEM 6A - General Chemistry I (A) SP13177 53 56.6% 28.3% 6.23 C+ (2.67) C+ (2.37)
Johnson, Christina A CHEM 6B - General Chemistry II (A) SP13306 108 84.8% 97.1% 7.67 B- (2.89) B- (2.71)
Johnson, Christina A CHEM 6B - General Chemistry II (B) SP13350 120 89.8% 95.8% 7.01 B (3.00) B- (2.71)
Hoeger, Carl CHEM 6C - General Chemistry III (A) SP13319 142 89.7% 89.0% 7.93 B (3.11) C+ (2.69)
Hoeger, Carl CHEM 6C - General Chemistry III (B) SP13274 108 84.9% 60.4% 7.59 B (3.00) C+ (2.69)
Ghosh, Gourisankar CHEM 6C - General Chemistry III (C) SP13242 88 83.7% 58.1% 4.62 B+ (3.35) B- (2.77)
Bertram, Timothy CHEM 6C - General Chemistry III (D) SP13249 106 97.1% 96.2% 6.50 B (3.24) C+ (2.66)
Kubiak, Clifford Paul CHEM 6CH - Honors General Chemistry III (A) SP1356 26 80.8% 88.5% 7.12 B+ (3.32) B (3.15)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (A) SP13271 102 91.0% 88.0% 6.07 B+ (3.41) B- (2.90)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (B) SP13274 95 79.6% 82.8% 6.37 B+ (3.33) B- (2.90)
Tukey, Robert H CHEM 92 - Undergrad Pharmacology Seminar (A) SP13182 56 94.4% 94.4% 0.95 A (4.00) N/A
Czworkowski, John CHEM 96 - Introductn to Teaching Science (A) SP1311 4 100.0% 100.0% 2.50 A- (3.75) N/A
Williams, Renee T CHEM 100A - Analytical Chemistry Lab (A) WI13108 62 49.2% 28.8% 8.64 B (3.08) B- (2.78)
Huang, Xuemei CHEM 100B - Instrumental Analysis (A) WI1323 9 88.9% 66.7% 3.83 C+ (2.67) B (3.26)
Mrse, Anthony Adrian CHEM 100B - Instrumental Analysis (A) WI1323 9 100.0% 77.8% 4.28 C+ (2.67) B (3.26)
Pomeroy, Robert S. CHEM 100BL - Instrumental Analysis Lab (A) WI1322 8 100.0% 87.5% 8.25 B (3.00) B (3.28)
Kim, Judy E. CHEM 105A - Physical Chemistry Laboratory (A) WI1369 42 61.0% 90.2% 7.10 B (3.24) B- (2.86)
Kim, Judy E. CHEM 105B - Physical Chemistry Laboratory (B) WI134 3 100.0% 100.0% 5.83 C+ (2.33) N/A
Johnson, Christina A CHEM 109 - Recombinant DNA Laboratory (A) WI1350 33 90.9% 100.0% 8.14 B (3.28) B+ (3.40)
Johnson, Christina A CHEM 109 - Recombinant DNA Laboratory (B) WI1344 21 95.2% 95.2% 9.26 B (3.25) B+ (3.40)
Toor, Navtej CHEM 114A - Biochemical Structure&Function (A) WI13132 63 86.4% 88.1% 6.68 B+ (3.36) B- (2.92)
Komives, Elizabeth A CHEM 114B - Biochem Energetics&Metabolism (A) WI13337 168 76.6% 80.2% 8.09 B (3.26) B (3.15)
Devaraj, Neal Krishna CHEM 116 - Enzyme Catalyzed Reactions (A) WI1325 13 76.9% 92.3% 5.88 B+ (3.38) B (3.21)
Dorrestein, Pieter CHEM 116 - Enzyme Catalyzed Reactions (A) WI1325 14 71.4% 78.6% 7.36 B+ (3.43) B (3.21)
Tukey, Robert H CHEM 118 - Pharmacology and Toxicology (A) WI13178 83 90.2% 80.5% 5.25 B- (2.99) B- (2.86)
Lennox, Joseph CHEM 12 - Molecules and Reactions (A) WI13152 92 44.6% 59.8% 5.23 B (3.05) B (3.17)
Rheingold, Arnold L CHEM 120B - Inorganic Chemistry II (A) WI1379 40 75.7% 64.9% 6.72 B (3.19) B- (2.78)
Sailor, Michael Joseph CHEM 123 - Advanced Inorganic Chem Lab (A) WI1310 3 100.0% 66.7% 8.50 B+ (3.33) N/A
Tauber, Michael CHEM 127 - Physical Chem: Thermodynamics (A) WI13308 178 61.8% 68.5% 7.80 B- (2.92) C+ (2.65)
Galperin, Michael CHEM 132 - Chem Physics: Stat Thermo II (A) WI1392 45 84.1% 79.5% 8.31 B- (2.95) C+ (2.61)
Whitesell, James K. CHEM 140A - Organic Chemistry I (A) WI13198 85 80.8% 52.6% 7.88 B (3.09) C (2.08)
Bertrand, Guy CHEM 140A - Organic Chemistry I (B) WI13328 148 88.7% 93.7% 6.16 B (3.23) B- (2.74)
Guerrero, Carlos Ariel CHEM 140B - Organic Chemistry II (A) WI13241 119 79.3% 69.8% 8.85 B- (2.97) C+ (2.60)
Hoeger, Carl CHEM 140B - Organic Chemistry II (B) WI13234 124 78.3% 86.7% 9.58 B- (2.98) B- (2.87)
Whitesell, James K. CHEM 140B - Organic Chemistry II (C) WI13209 84 69.9% 42.2% 7.47 B- (2.86) C+ (2.35)
Weizman, Haim CHEM 140BH - Honors Organic Chemistry (A) WI1362 42 83.3% 90.5% 7.23 B+ (3.50) A- (3.80)
Jennings, Patricia A. CHEM 140C - Organic Chemistry III (A) WI13248 90 77.8% 47.8% 7.24 B (3.19) B (3.07)
Ternansky, Robert J. CHEM 143A - Organic Chemistry Laboratory (A) WI13398 213 86.8% 87.3% 7.00 B (3.23) B (3.10)
Albizati, Kim F. CHEM 143AH - Honors Organic Chemistry Lab (A) WI1360 40 90.0% 97.5% 9.01 B+ (3.67) B+ (3.39)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) WI13124 74 87.8% 91.9% 6.11 B (3.13) B+ (3.49)
Nicolaou, Kyriacos C CHEM 151 - Molecules That Changed World (A) WI1353 21 90.5% 85.7% 4.10 B+ (3.65) A- (3.79)
Gianneschi, Nathan CHEM 156 - Struct&Properties/Organc Molec (A) WI1317 8 75.0% 37.5% 5.07 B- (2.83) N/A
Baker, Timothy Stanley CHEM 165 - 3D Elctron Microscopy/Macromol (A) WI1321 10 80.0% 90.0% 6.30 B (3.11) B- (2.97)
Viadiu, Hector CHEM 165 - 3D Elctron Microscopy/Macromol (A) WI1321 10 70.0% 90.0% 6.50 B (3.11) B- (2.97)
Devaraj, Neal Krishna CHEM 168 - Drug Synthesis and Design (A) WI1320 10 100.0% 100.0% 4.70 A- (3.89) B+ (3.39)
Pomeroy, Robert S. CHEM 172 - Environmental Chemistry II (A) WI1357 24 100.0% 100.0% 5.83 B+ (3.30) B- (2.74)
Czworkowski, John CHEM 187 - Foundn of Teach&Learn Science (B) WI138 5 100.0% 100.0% 3.30 A- (3.80) N/A
Newsam, John CHEM 192 - Sr Seminar in Chem & Biochem (A) WI136 5 100.0% 100.0% 2.10 A (4.00) N/A
Sinha, Amitabha CHEM 6A - General Chemistry I (A) WI13264 125 83.6% 54.1% 6.87 B- (2.71) C+ (2.37)
Johnson, Christina A CHEM 6A - General Chemistry I (B) WI13361 188 93.9% 97.2% 7.28 B (3.02) B- (2.85)
Trogler, William C CHEM 6A - General Chemistry I (C) WI13248 108 92.2% 85.4% 5.98 B+ (3.34) B- (2.92)
Muller, Ulrich K. CHEM 6B - General Chemistry II (A) WI13358 205 92.0% 93.0% 5.37 B+ (3.47) B (3.25)
Hoeger, Carl CHEM 6B - General Chemistry II (B) WI13352 171 88.0% 83.8% 8.09 B (3.02) B- (2.79)
Crowell, John E CHEM 6B - General Chemistry II (C) WI13329 141 86.2% 55.8% 6.52 B+ (3.32) B- (2.88)
Kummel, Andrew C CHEM 6B - General Chemistry II (E) WI13319 138 85.0% 83.5% 7.50 B- (2.94) C+ (2.64)
Paesani, Francesco CHEM 6BH - Honors General Chemistry II (A) WI1379 54 87.0% 98.1% 7.65 B+ (3.46) B (3.23)
Ghosh, Partho CHEM 6C - General Chemistry III (A) WI13258 131 89.8% 87.5% 5.78 B+ (3.35) C+ (2.64)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (A) WI13254 117 84.2% 86.8% 7.05 B+ (3.31) B- (2.94)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (B) WI13260 120 89.1% 88.2% 5.90 B (3.30) B- (2.94)
Czworkowski, John CHEM 96 - Introductn to Teaching Science (A) WI1310 4 75.0% 100.0% 3.50 B+ (3.50) N/A
Pomeroy, Robert S. CHEM 100A - Analytical Chemistry Lab (A) FA1291 44 71.4% 83.3% 7.64 B (3.15) B (3.15)
Pomeroy, Robert S. CHEM 100B - Fundamentls/Instrumentl Analys (A) FA1224 11 90.0% 90.0% 6.10 B (3.20) B- (2.86)
Pomeroy, Robert S. CHEM 100BL - Instrumental Analysis Lab (A) FA1223 8 87.5% 87.5% 7.25 B+ (3.50) B (3.20)
Tauber, Michael CHEM 105A - Physical Chemistry Laboratory (B) FA1229 19 77.8% 88.9% 8.39 B (3.06) B- (2.90)
Tauber, Michael CHEM 105B - Physical Chemistry Laboratory (A) FA125 4 100.0% 100.0% 7.50 B (3.25) N/A
Hamaoka, Brent Y CHEM 108 - Protein Biochemistry Lab (A) FA1232 14 100.0% 100.0% 8.07 B+ (3.36) B (3.06)
Hamaoka, Brent Y CHEM 108 - Protein Biochemistry Lab (B) FA1246 28 80.8% 92.3% 8.25 B+ (3.40) B (3.06)
Brydges, Stacey CHEM 11 - The Periodic Table (A) FA12159 81 88.2% 94.7% 4.50 B+ (3.36) B+ (3.36)
Brydges, Stacey CHEM 11 - The Periodic Table (B) FA12146 81 97.2% 97.2% 5.40 B+ (3.48) B+ (3.36)
Viadiu, Hector CHEM 114A - Biochemical Structure&Function (A) FA12350 187 92.6% 88.0% 6.49 B+ (3.49) C+ (2.61)
Figueroa, Joshua CHEM 120A - Inorganic Chemistry I (A) FA12182 85 70.9% 84.8% 7.77 B (3.16) B- (2.72)
Kim, Judy E. CHEM 126 - Physical Chem: Quantum Mech (A) FA12301 239 78.6% 92.0% 8.06 B (3.16) C+ (2.61)
Paesani, Francesco CHEM 131 - Physical Chemistry (A) FA12139 67 81.3% 92.2% 8.08 B- (2.97) C+ (2.58)
Ternansky, Robert J. CHEM 140A - Organic Chemistry I (A) FA12244 146 90.1% 85.8% 9.95 B (3.02) B- (2.72)
Oconnor, Joseph M. CHEM 140A - Organic Chemistry I (B) FA12318 145 93.0% 89.1% 9.73 B (3.26) B- (2.74)
Perrin, Charles L. CHEM 140A - Organic Chemistry I (C) FA12320 144 77.4% 88.0% 8.39 B- (2.96) C+ (2.59)
Opella, Stanley J CHEM 140A - Organic Chemistry I (D) FA1261 30 89.3% 75.0% 7.07 B+ (3.64) C+ (2.58)
Theodorakis, Emmanouil CHEM 140B - Organic Chemistry II (A) FA12293 108 77.2% 86.1% 7.69 B- (2.84) C+ (2.68)
Hermann, Thomas CHEM 140C - Organic Chemistry III (A) FA12297 211 86.0% 87.9% 7.24 B (3.24) B (3.01)
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (A) FA12439 177 85.3% 94.1% 6.86 B+ (3.32) B (3.03)
Albizati, Kim F. CHEM 143AH - Honors Organic Chemistry Lab (A) FA1268 34 87.9% 93.9% 7.41 B+ (3.56) B+ (3.41)
Ternansky, Robert J. CHEM 143C - Organic Chemistry Laboratory (A) FA1286 62 87.7% 93.0% 7.37 B (3.20) B+ (3.40)
Guerrero, Carlos Ariel CHEM 152 - Synthetic Methods/Organic Chem (A) FA1235 9 66.7% 77.8% 5.61 B (3.00) B+ (3.40)
Theodorakis, Emmanouil CHEM 152 - Synthetic Methods/Organic Chem (A) FA1235 9 88.9% 88.9% 5.39 B (3.11) B+ (3.40)
Tor, Yitzhak CHEM 154 - Mechanisms/Organic Reactions (A) FA1265 29 80.8% 88.5% 7.50 B (3.04) B+ (3.36)
Bertram, Timothy CHEM 171 - Environmental Chemistry I (A) FA1293 45 90.5% 88.1% 5.36 B (3.22) B- (2.93)
AMARO, ROMMIE CHEM 185 - Intro/Computational Chemistry (A) FA124 4 100.0% 100.0% 7.00 A- (3.75) N/A
Hoeger, Carl CHEM 4 - Basic Chemistry (A) FA12318 185 91.1% 86.9% 6.74 B- (2.75) B (3.04)
Hoeger, Carl CHEM 6A - General Chemistry I (A) FA12427 235 90.6% 90.6% 7.48 B (3.15) B- (2.87)
Czworkowski, John CHEM 6A - General Chemistry I (B) FA12367 186 91.1% 70.8% 6.22 B (3.25) C+ (2.68)
Czworkowski, John CHEM 6A - General Chemistry I (C) FA12376 191 90.6% 78.8% 6.13 B (3.10) C+ (2.68)
Crowell, John E CHEM 6A - General Chemistry I (D) FA12390 197 73.7% 36.8% 7.88 B- (2.85) C+ (2.67)
Crowell, John E CHEM 6A - General Chemistry I (E) FA12393 212 81.6% 37.4% 7.22 B- (2.97) C+ (2.67)
Weare, John H. CHEM 6AH - Honors General Chemistry I (A) FA12161 98 52.8% 31.5% 8.43 B+ (3.34) B+ (3.39)
Albizati, Kim F. CHEM 6B - General Chemistry II (A) FA12321 163 93.1% 93.8% 7.47 B (3.14) B- (2.74)
Johnson, Christina A CHEM 6C - General Chemistry III (A) FA12157 68 85.9% 96.9% 7.15 B (3.00) B- (2.75)
Johnson, Christina A CHEM 6C - General Chemistry III (B) FA12187 84 92.6% 100.0% 8.60 B (3.05) B- (2.75)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (A) FA12264 110 84.5% 86.4% 6.13 B (3.30) B- (2.90)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (B) FA12271 132 87.8% 90.2% 6.47 B+ (3.40) B- (2.90)
Weizman, Haim CHEM 87 - Freshman Seminar (A) FA1220 11 88.9% 100.0% 0.50 A (4.00) N/A
Czworkowski, John CHEM 87 - Freshman Seminar (B) FA1212 11 100.0% 100.0% 0.94 N/A N/A
Pickham, Kathleen M CHEM 108 - Protein Biochemistry Lab (A) S21229 15 60.0% 73.3% 15.83 B+ (3.50) B- (2.99)
Fusco, Amanda J. CHEM 114A - Biochemical Structure&Function (A) S212100 33 97.0% 100.0% 8.80 A- (3.73) B- (2.98)
Albizati, Kim F. CHEM 140A - Organic Chemistry I (A) S212119 32 96.9% 100.0% 10.38 B+ (3.50) C+ (2.64)
Oconnor, Joseph M. CHEM 140B - Organic Chemistry II (A) S212176 24 79.2% 95.7% 13.08 B (3.13) C+ (2.52)
Ternansky, Robert J. CHEM 140C - Organic Chemistry III (A) S21262 29 86.2% 86.2% 13.26 B- (2.89) B- (2.71)
Johnson, Christina A CHEM 6B - General Chemistry II (A) S21269 16 73.3% 93.3% 11.70 B+ (3.33) B- (2.74)
Johnson, Christina A CHEM 6C - General Chemistry III (A) S21296 25 96.0% 92.0% 9.86 B (3.00) B- (2.81)
Pomeroy, Robert S. CHEM 100A - Analytical Chemistry Lab (A) S11243 11 72.7% 90.9% 10.14 A- (3.73) B+ (3.48)
Brydges, Stacey CHEM 11 - The Periodic Table (A) S11219 9 100.0% 100.0% 8.06 B+ (3.67) N/A
Albizati, Kim F. CHEM 140A - Organic Chemistry I (A) S112137 35 88.2% 97.1% 11.36 B (3.19) N/A
Oconnor, Joseph M. CHEM 140A - Organic Chemistry I (A) S112137 35 88.2% 97.1% 11.36 B (3.19) C+ (2.61)
Weizman, Haim CHEM 140B - Organic Chemistry II (A) S112166 43 86.0% 97.6% 10.41 B (3.00) B (3.04)
Albizati, Kim F. CHEM 140C - Organic Chemistry III (A) S112221 69 86.6% 100.0% 11.26 B (3.27) B- (2.73)
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (A) S11290 25 84.0% 92.0% 12.26 B+ (3.68) B- (2.99)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) S11245 36 88.9% 86.1% 9.44 B (3.09) B+ (3.51)
Hoeger, Carl CHEM 6A - General Chemistry I (A) S11288 24 91.7% 91.7% 10.00 B+ (3.52) B- (2.86)
Pomeroy, Robert S. CHEM 6B - General Chemistry II (B) S11259 16 87.5% 93.8% 9.63 B- (2.80) C+ (2.52)
Hoeger, Carl CHEM 6C - General Chemistry III (A) S11290 24 83.3% 87.5% 10.67 B+ (3.50) B- (2.89)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (A) S112185 72 73.6% 79.2% 11.03 B (3.25) B- (2.90)
Limtiaco, John Francis Kup CHEM 100A - Analytical Chemistry Lab (A) SP12129 62 77.4% 83.9% 7.32 B+ (3.56) B (3.24)
Pomeroy, Robert S. CHEM 100B - Fundamentls/Instrumentl Analys (A) SP1224 9 100.0% 88.9% 9.17 B (3.00) B- (2.76)
Pomeroy, Robert S. CHEM 100BL - Instrumental Analysis Lab (A) SP1224 9 88.9% 88.9% 8.28 B+ (3.33) B (3.04)
Magde, Douglas CHEM 105A - Physical Chemistry Laboratory (A) SP1280 29 75.9% 96.6% 9.71 B+ (3.33) B (3.17)
Magde, Douglas CHEM 105B - Physical Chemistry Laboratory (A) SP127 3 100.0% 100.0% 10.50 B+ (3.33) N/A
Johnson, Christina A CHEM 109 - Recombinant DNA Laboratory (A) SP1240 10 90.0% 100.0% 6.50 B+ (3.50) B+ (3.35)
Johnson, Christina A CHEM 109 - Recombinant DNA Laboratory (B) SP1239 17 94.1% 100.0% 7.21 B (3.24) B+ (3.35)
Rubinshtein, Mark CHEM 11 - The Periodic Table (A) SP12151 50 93.9% 89.8% 4.63 B (3.24) B (3.12)
Joseph, Simpson CHEM 114C - Biosynthesis of Macromolecules (A) SP12299 116 93.1% 88.8% 6.68 B+ (3.48) B- (2.91)
Tukey, Robert H CHEM 118 - Pharmacology and Toxicology (A) SP12155 64 98.4% 95.2% 6.44 B+ (3.49) B- (2.83)
Cohen, Seth M CHEM 120A - Inorganic Chemistry I (A) SP12196 94 77.7% 61.7% 7.12 B- (2.90) C+ (2.50)
Cohen, Seth M CHEM 125 - Bioinorganic Chemistry (A) SP1226 11 90.9% 90.9% 5.41 B+ (3.50) B- (2.88)
Tezcan, Faik CHEM 125 - Bioinorganic Chemistry (A) SP1226 10 90.0% 60.0% 5.50 B+ (3.50) B- (2.88)
Hoeger, Carl CHEM 13 - Chemistry of Life (A) SP12137 51 64.7% 84.0% 5.64 B (3.09) B (3.10)
Galperin, Michael CHEM 132 - Physical Chemistry (A) SP1296 28 75.0% 82.1% 7.50 B (3.26) C+ (2.51)
Sinha, Amitabha CHEM 135 - Molecular Spectroscopy (A) SP125 3 100.0% 100.0% 7.17 A (4.00) N/A
Yang, Jerry CHEM 140A - Organic Chemistry I (A) SP12227 65 85.7% 79.4% 9.26 B- (2.92) C+ (2.57)
Whitesell, James K. CHEM 140B - Organic Chemistry II (A) SP12158 50 85.7% 53.1% 8.74 B+ (3.35) C (2.10)
Whitesell, James K. CHEM 140B - Organic Chemistry II (B) SP12359 115 75.2% 53.1% 7.13 B (3.11) C (2.10)
Albizati, Kim F. CHEM 140C - Organic Chemistry III (A) SP12410 161 84.4% 98.1% 8.13 B (3.25) C+ (2.68)
Ternansky, Robert J. CHEM 140C - Organic Chemistry III (B) SP12315 243 83.9% 88.0% 9.58 B (3.02) B- (2.71)
Weizman, Haim CHEM 140CH - Honors Organic Chemistry (A) SP1259 34 91.2% 97.1% 6.56 B+ (3.59) A- (3.80)
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (A) SP12441 172 86.5% 91.9% 8.30 B (3.21) B- (2.99)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (B) SP12121 70 91.4% 92.9% 6.90 B (3.19) B+ (3.31)
Burkart, Michael D CHEM 157 - Natural Products Chemistry (A) SP1266 21 90.5% 100.0% 5.93 B (3.25) B+ (3.40)
Molinski, Tadeusz CHEM 158 - Applied Spectroscopy (A) SP1210 3 100.0% 100.0% 9.17 B (3.00) N/A
Prather, Kimberly A CHEM 173 - Atmospheric Chemistry (A) SP127 3 100.0% 66.7% 3.17 B (3.00) N/A
Dickson, Andrew Gilmore CHEM 174 - Chem Prin of Marine Systems (A) SP1235 12 66.7% 72.7% 5.00 B+ (3.33) B- (2.88)
Dickson, Andrew Gilmore CHEM 174 - Chem Prin of Marine Systems (A) SP1215 5 100.0% 80.0% 2.50 B (3.00) N/A
Paesani, Francesco CHEM 185 - Intro/Computational Chemistry (A) SP127 5 100.0% 100.0% 8.10 B (3.25) N/A
Tezcan, Faik CHEM 6A - General Chemistry I (A) SP12178 114 80.0% 88.2% 7.26 B- (2.93) C+ (2.38)
Crowell, John E CHEM 6B - General Chemistry II (A) SP12251 96 82.6% 67.4% 7.53 B- (2.82) C+ (2.31)
Johnson, Christina A CHEM 6B - General Chemistry II (B) SP12311 151 86.1% 94.0% 8.63 B (3.01) B- (2.83)
Hoeger, Carl CHEM 6C - General Chemistry III (A) SP12299 129 88.3% 87.5% 7.61 B (3.03) B- (2.95)
Brydges, Stacey CHEM 6C - General Chemistry III (B) SP12305 150 89.7% 96.6% 7.04 B+ (3.43) B (3.03)
Ghosh, Gourisankar CHEM 6C - General Chemistry III (C) SP1260 28 71.4% 53.6% 5.71 B (3.30) C+ (2.58)
Bertram, Timothy CHEM 6C - General Chemistry III (D) SP12254 135 87.9% 83.8% 6.82 B (3.08) C+ (2.58)
Kubiak, Clifford Paul CHEM 6CH - Honors General Chemistry III (A) SP1275 34 79.4% 88.2% 7.79 B+ (3.61) B+ (3.34)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (A) SP12263 114 73.0% 79.3% 7.63 B (3.17) B- (2.76)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (B) SP12275 101 85.0% 82.0% 6.72 B (3.22) B- (2.76)
Brydges, Stacey CHEM 87 - Freshman Seminar (A) SP1218 9 100.0% 100.0% 1.61 N/A N/A
Tukey, Robert H CHEM 92 - Undergrad Pharmacology Seminar (A) SP12188 92 92.3% 94.5% 1.31 A- (3.91) N/A
Czworkowski, John CHEM 96 - Introductn to Teaching Science (A) SP1210 5 80.0% 100.0% 2.50 B+ (3.40) N/A
Limtiaco, John Francis Kup CHEM 100A - Analytical Chemistry Lab (A) WI12125 73 58.9% 60.3% 8.88 B+ (3.34) B (3.16)
Prather, Kimberly A CHEM 100B - Fundamentls/Instrumentl Analys (A) WI1220 10 90.0% 90.0% 7.30 B- (2.70) C (2.21)
Pomeroy, Robert S. CHEM 100BL - Instrumental Analysis Lab (A) WI1216 8 100.0% 100.0% 7.75 B (3.00) N/A
Tauber, Michael CHEM 105A - Physical Chemistry Laboratory (A) WI1247 24 52.2% 82.6% 8.33 B (3.14) B- (2.76)
Pickham, Kathleen M CHEM 108 - Protein Biochemistry Lab (A) WI1233 15 86.7% 93.3% 8.90 B+ (3.50) B (3.06)
Pickham, Kathleen M CHEM 108 - Protein Biochemistry Lab (B) WI1232 15 93.3% 86.7% 6.77 B (3.20) B (3.06)
Toor, Navtej CHEM 114A - Biochemical Structure&Function (A) WI12140 69 88.2% 85.1% 7.78 B+ (3.45) C+ (2.64)
Wang, Wei CHEM 114B - Biochem Energetics&Metabolism (A) WI12305 159 83.2% 58.1% 7.91 B+ (3.35) B- (2.76)
Nakagawa, Terunaga CHEM 12 - Molecules and Reactions (A) WI12191 81 49.4% 39.7% 5.46 B (3.00) B+ (3.56)
Rheingold, Arnold L CHEM 120B - Inorganic Chemistry II (A) WI1268 37 81.1% 81.1% 7.69 B (3.17) C+ (2.55)
Sailor, Michael Joseph CHEM 123 - Advanced Inorganic Chem Lab (A) WI1210 7 100.0% 100.0% 4.50 A- (3.86) N/A
Kim, Judy E. CHEM 126 - Physical Chemistry (A) WI12219 103 72.5% 91.2% 8.75 B (3.15) C+ (2.69)
Paesani, Francesco CHEM 131 - Physical Chemistry (A) WI12127 67 78.5% 75.4% 8.47 B- (2.98) C+ (2.47)
Gianneschi, Nathan CHEM 140A - Organic Chemistry I (A) WI12303 133 88.0% 84.2% 8.35 B- (2.86) B- (2.72)
Gianneschi, Nathan CHEM 140A - Organic Chemistry I (B) WI12195 80 88.3% 87.0% 9.75 B- (2.96) B- (2.72)
Opella, Stanley J CHEM 140A - Organic Chemistry I (C) WI1285 32 87.5% 65.6% 6.69 B+ (3.44) C+ (2.54)
Burkart, Michael D CHEM 140B - Organic Chemistry II (A) WI12386 211 81.3% 95.7% 9.37 B (3.26) C+ (2.60)
Hoeger, Carl CHEM 140B - Organic Chemistry II (B) WI12205 95 85.3% 93.7% 8.67 B (3.05) B- (2.89)
Johnson, Christina A CHEM 140B - Organic Chemistry II (C) WI12373 163 84.6% 90.7% 9.84 B (3.05) B- (2.79)
Weizman, Haim CHEM 140BH - Honors Organic Chemistry (A) WI1249 35 94.3% 97.1% 7.07 B+ (3.59) B+ (3.61)
Jennings, Patricia A. CHEM 140C - Organic Chemistry III (A) WI12284 110 79.1% 56.4% 5.91 B+ (3.32) B (3.11)
Ternansky, Robert J. CHEM 143A - Organic Chemistry Laboratory (A) WI12442 204 84.7% 81.3% 7.52 B (3.27) B (3.10)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) WI12104 53 86.8% 79.2% 6.73 B (3.17) B (3.29)
Perrin, Charles L. CHEM 146 - Kinetics & Mechan of Org React (A) WI1210 5 100.0% 100.0% 8.10 B+ (3.40) N/A
Pomeroy, Robert S. CHEM 149B - Environmental Chemistry (A) WI1232 20 100.0% 100.0% 5.90 B+ (3.45) B (3.09)
Rubinshtein, Mark CHEM 15 - Chemistry of the Universe (A) WI1244 22 100.0% 95.5% 3.68 B (3.20) B (3.21)
Guerrero, Carlos Ariel CHEM 155 - Synthesis of Complex Molecules (A) WI1210 5 100.0% 100.0% 10.50 C+ (2.67) N/A
Theodorakis, Emmanouil CHEM 155 - Synthesis of Complex Molecules (A) WI1210 5 100.0% 80.0% 10.00 B (3.00) N/A
Yang, Jerry CHEM 156 - Struct&Properties/Organc Molec (A) WI1222 8 87.5% 75.0% 9.25 B+ (3.50) B (3.27)
Viadiu, Hector CHEM 165 - 3D Elctron Microscopy/Macromol (A) WI1225 9 77.8% 100.0% 4.94 B+ (3.67) B+ (3.52)
Pomeroy, Robert S. CHEM 172 - Environmental Chemistry (A) WI1232 20 100.0% 100.0% 5.90 B+ (3.45) B (3.09)
Czworkowski, John CHEM 187 - Foundn of Teach&Learn Science (A) WI1213 5 80.0% 80.0% 4.10 A- (3.80) N/A
Newsam, John CHEM 192 - Sr Seminar in Chem & Biochem (A) WI126 5 100.0% 100.0% 2.10 N/A N/A
Sinha, Amitabha CHEM 6A - General Chemistry I (A) WI12186 80 79.7% 63.3% 7.06 C+ (2.68) C+ (2.41)
Johnson, Christina A CHEM 6A - General Chemistry I (B) WI12297 141 89.1% 94.9% 8.40 B (3.10) B- (2.81)
Trogler, William C CHEM 6A - General Chemistry I (C) WI12267 129 85.7% 82.4% 6.88 B (3.02) B- (2.80)
Muller, Ulrich K. CHEM 6B - General Chemistry II (A) WI12166 77 94.7% 92.1% 5.45 B+ (3.55) B- (2.84)
Brydges, Stacey CHEM 6B - General Chemistry II (B) WI12306 162 90.7% 94.4% 7.36 B (3.13) B- (2.86)
Crowell, John E CHEM 6B - General Chemistry II (C) WI12266 146 84.1% 59.3% 8.50 B (3.20) C+ (2.66)
Crowell, John E CHEM 6B - General Chemistry II (D) WI12278 138 84.6% 50.7% 7.49 B (3.17) C+ (2.66)
Kummel, Andrew C CHEM 6B - General Chemistry II (E) WI12210 125 82.0% 90.8% 8.61 B (3.05) B- (2.76)
Hoeger, Carl CHEM 6BH - Honors General Chemistry II (A) WI1280 39 94.7% 100.0% 8.45 A- (3.85) B (3.06)
Ghosh, Partho CHEM 6C - General Chemistry III (A) WI12266 125 88.5% 75.4% 6.58 B (3.03) C+ (2.45)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (A) WI12267 115 80.9% 74.8% 7.20 B+ (3.35) B- (2.72)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (B) WI12260 104 71.2% 73.1% 8.03 B+ (3.41) B- (2.72)
Czworkowski, John CHEM 87 - Freshman Seminar (A) WI1214 7 100.0% 100.0% 1.36 N/A N/A
Czworkowski, John CHEM 96 - Introductn to Teaching Science (A) WI1212 6 100.0% 100.0% 3.50 B+ (3.67) N/A
Pomeroy, Robert S. CHEM 100A - Analytical Chemistry Lab (A) FA1189 49 81.3% 87.5% 7.48 B+ (3.33) B (3.01)
Pomeroy, Robert S. CHEM 100B - Fundamentls/Instrumentl Analys (A) FA1115 7 100.0% 100.0% 7.36 B (3.14) N/A
Pomeroy, Robert S. CHEM 100BL - Instrumental Analysis Lab (A) FA1113 8 100.0% 100.0% 10.50 B (3.13) N/A
Tauber, Michael CHEM 105A - Physical Chemistry Laboratory (A) FA1132 15 66.7% 86.7% 11.83 B- (2.92) C+ (2.65)
Pickham, Kathleen M CHEM 108 - Protein Biochemistry Lab (A) FA1133 15 93.3% 93.3% 9.30 B (3.00) B (3.04)
Pickham, Kathleen M CHEM 108 - Protein Biochemistry Lab (B) FA1131 15 93.3% 100.0% 9.97 B (3.27) B (3.04)
Brydges, Stacey CHEM 11 - The Periodic Table (A) FA11167 98 83.7% 93.9% 4.93 B (3.20) B (3.23)
Brydges, Stacey CHEM 11 - The Periodic Table (B) FA11193 105 80.6% 93.2% 5.82 B (3.15) B (3.23)
Viadiu, Hector CHEM 114A - Biochemical Structure&Function (A) FA11297 156 94.2% 85.7% 6.86 B+ (3.55) B- (2.97)
Donoghue, Daniel J. CHEM 114D - Molecular & Cellular Biochem (A) FA1119 14 78.6% 100.0% 8.36 B (3.21) N/A
Dorrestein, Pieter CHEM 116 - Enzyme Catalyzed Reactions (A) FA1129 15 86.7% 100.0% 6.63 B+ (3.47) B (3.30)
Komives, Elizabeth A CHEM 116 - Enzyme Catalyzed Reactions (A) FA1129 15 86.7% 92.9% 5.83 B+ (3.47) B (3.30)
Figueroa, Joshua CHEM 120A - Inorganic Chemistry I (A) FA11176 98 89.8% 83.7% 8.91 B (3.17) B- (2.87)
Kim, Judy E. CHEM 127 - Physical Chemistry (A) FA11248 125 85.2% 93.4% 7.93 B (3.21) B- (2.71)
Galperin, Michael CHEM 133 - Physical Chemistry (A) FA1168 34 57.6% 73.5% 10.21 C+ (2.61) C+ (2.67)
Ternansky, Robert J. CHEM 140A - Organic Chemistry I (A) FA11219 114 82.3% 76.1% 11.79 B- (2.85) C+ (2.66)
Whitesell, James K. CHEM 140A - Organic Chemistry I (B) FA11127 53 73.1% 52.9% 8.07 B (3.02) C+ (2.32)
Oconnor, Joseph M. CHEM 140A - Organic Chemistry I (C) FA11397 191 85.8% 90.5% 9.46 B (3.17) C+ (2.69)
Hoeger, Carl CHEM 140A - Organic Chemistry I (D) FA11374 192 87.5% 87.5% 8.94 B (3.06) B- (2.80)
Theodorakis, Emmanouil CHEM 140B - Organic Chemistry II (A) FA11334 158 87.9% 95.5% 7.54 B (3.00) C+ (2.62)
Hermann, Thomas CHEM 140C - Organic Chemistry III (A) FA11348 135 83.5% 85.7% 8.00 B (3.26) C+ (2.55)
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (A) FA11453 184 89.5% 90.6% 8.53 B+ (3.38) B (3.04)
Ternansky, Robert J. CHEM 143C - Organic Chemistry Laboratory (A) FA1182 43 90.2% 97.6% 7.79 B (3.29) B+ (3.37)
Bertram, Timothy CHEM 149A - Environmental Chemistry (A) FA1172 36 94.1% 85.3% 6.79 B (3.13) B (3.02)
Guerrero, Carlos Ariel CHEM 152 - Synthetic Methods/Organic Chem (A) FA1130 13 53.8% 76.9% 4.83 B (3.29) B (3.00)
Theodorakis, Emmanouil CHEM 152 - Synthetic Methods/Organic Chem (A) FA1130 11 60.0% 90.0% 3.50 B+ (3.40) B (3.00)
Tor, Yitzhak CHEM 154 - Mechanisms/Organic Reactions (A) FA1152 29 100.0% 100.0% 6.50 B (3.30) B+ (3.33)
Bertram, Timothy CHEM 171 - Environmental Chemistry (A) FA1172 36 94.1% 85.3% 6.79 B (3.13) B (3.02)
Hoeger, Carl CHEM 4 - Basic Chemistry (A) FA11295 175 87.9% 84.3% 7.58 B- (2.90) B- (2.87)
Magde, Douglas CHEM 6A - General Chemistry I (A) FA11314 174 85.5% 42.2% 6.85 B (3.24) C+ (2.64)
Czworkowski, John CHEM 6A - General Chemistry I (B) FA11306 183 81.8% 68.5% 7.47 B (3.00) C+ (2.59)
Czworkowski, John CHEM 6A - General Chemistry I (C) FA11277 155 86.4% 55.6% 7.69 B- (2.99) C+ (2.59)
Sailor, Michael Joseph CHEM 6A - General Chemistry I (D) FA11327 176 95.4% 93.7% 6.09 B+ (3.65) B (3.26)
Crowell, John E CHEM 6A - General Chemistry I (E) FA11377 220 82.5% 59.2% 8.19 B- (2.88) C+ (2.57)
Weare, John H. CHEM 6AH - Honors General Chemistry I (A) FA11124 71 52.9% 35.2% 9.60 B+ (3.37) B+ (3.58)
Albizati, Kim F. CHEM 6B - General Chemistry II (A) FA11291 142 91.5% 96.5% 7.44 B (3.16) C+ (2.70)
Johnson, Christina A CHEM 6C - General Chemistry III (A) FA11239 109 92.7% 96.3% 7.77 B (3.11) B- (2.94)
Johnson, Christina A CHEM 6C - General Chemistry III (B) FA11127 54 98.1% 96.2% 8.65 B (3.08) B- (2.94)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (A) FA11269 126 80.0% 83.9% 7.13 B+ (3.59) B- (2.93)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (B) FA11274 121 81.8% 93.3% 6.85 B+ (3.43) B- (2.93)
Czworkowski, John CHEM 87 - Freshman Seminar (A) FA1114 4 100.0% 100.0% 1.50 A (4.00) N/A
Weizman, Haim CHEM 87 - Freshman Seminar (B) FA1119 16 100.0% 100.0% 1.63 A (4.00) N/A
Fusco, Amanda J. CHEM 114A - Biochemical Structure&Function (A) S21170 25 88.0% 88.0% 8.75 B (3.24) B (3.17)
Albizati, Kim F. CHEM 140A - Organic Chemistry I (A) S211104 43 93.0% 100.0% 12.27 B+ (3.34) C+ (2.57)
Oconnor, Joseph M. CHEM 140B - Organic Chemistry II (A) S211172 48 85.1% 93.6% 10.63 B- (2.98) C+ (2.54)
Ternansky, Robert J. CHEM 140C - Organic Chemistry III (A) S21137 14 78.6% 92.9% 13.93 C+ (2.69) C+ (2.66)
Johnson, Christina A CHEM 6B - General Chemistry II (A) S21163 18 83.3% 100.0% 11.17 B- (2.94) B- (2.75)
Johnson, Christina A CHEM 6C - General Chemistry III (A) S211105 32 78.1% 84.4% 11.06 B (3.16) B- (2.88)
Pomeroy, Robert S. CHEM 100A - Analytical Chem Lab (B) S11138 15 93.3% 86.7% 9.03 B (3.14) B (3.05)
Brydges, Stacey CHEM 11 - The Periodic Table (A) S11131 11 100.0% 100.0% 9.41 B (3.00) B- (2.86)
Oconnor, Joseph M. CHEM 140A - Organic Chemistry I (A) S111131 33 100.0% 100.0% 11.47 B+ (3.42) C+ (2.66)
Weizman, Haim CHEM 140B - Organic Chemistry II (A) S111207 43 83.7% 90.7% 10.79 B (3.14) B- (2.90)
Albizati, Kim F. CHEM 140C - Organic Chemistry III (A) S111300 103 87.3% 99.0% 11.03 B+ (3.40) B- (2.72)
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (A) S11186 32 87.5% 90.6% 10.81 B (3.25) B (3.08)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) S11123 20 95.0% 100.0% 6.50 B (3.20) B+ (3.41)
Hoeger, Carl CHEM 6A - General Chemistry I (A) S11191 24 83.3% 83.3% 9.25 B (3.00) C+ (2.67)
Pomeroy, Robert S. CHEM 6B - General Chemistry II (A) S11181 40 77.5% 92.5% 9.90 B- (2.82) C+ (2.48)
Hoeger, Carl CHEM 6C - General Chemistry III (A) S111108 52 90.4% 98.0% 10.07 B (3.23) B- (2.95)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (A) S111187 74 86.3% 98.6% 10.55 B+ (3.36) B- (2.79)
Feng, Da Fei CHEM 100A - Analytical Chem Lab (A) SP1194 36 58.3% 63.9% 11.30 B (3.11) B (3.14)
Pomeroy, Robert S. CHEM 100B - Fundamentls/Instrumentl Analys (A) SP1116 5 100.0% 100.0% 6.50 B (3.00) N/A
Pomeroy, Robert S. CHEM 100BL - Instrumental Analysis Lab (A) SP1115 4 100.0% 100.0% 9.00 B+ (3.33) N/A
Magde, Douglas CHEM 105A - Physical Chemistry Laboratory (A) SP1161 26 73.1% 100.0% 9.27 B (3.23) B (3.14)
Magde, Douglas CHEM 105B - Physical Chemistry Laboratory (A) SP114 4 100.0% 100.0% 8.50 A (4.00) N/A
Johnson, Christina A CHEM 109 - Recombinant DNA Laboratory (A) SP1143 19 68.4% 100.0% 6.08 B+ (3.39) B+ (3.38)
Johnson, Christina A CHEM 109 - Recombinant DNA Laboratory (B) SP1142 18 83.3% 88.9% 7.28 B+ (3.33) B+ (3.38)
Donoghue, Daniel J. CHEM 11 - The Periodic Table (A) SP11139 60 95.0% 98.3% 3.38 B+ (3.56) B- (2.90)
Komives, Elizabeth A CHEM 113 - Physical Chem/Biol Macromolec (A) SP117 4 75.0% 100.0% 4.50 A- (3.75) N/A
Wolynes, Peter Guy CHEM 113 - Physical Chem/Biol Macromolec (A) SP117 4 75.0% 50.0% 4.50 A- (3.75) N/A
Hoffmann, Alexander CHEM 114C - Biosynthesis of Macromolecules (A) SP11196 72 88.7% 91.5% 7.53 B+ (3.37) C+ (2.66)
Tukey, Robert H CHEM 118 - Pharmacology and Toxicology (A) SP11139 45 91.1% 88.9% 5.41 B+ (3.34) B- (2.79)
Cohen, Seth M CHEM 120A - Inorganic Chemistry I (A) SP11151 73 94.4% 82.9% 5.49 B+ (3.48) C+ (2.51)
Cohen, Seth M CHEM 125 - Bioinorganic Chemistry (A) SP1115 10 90.0% 100.0% 5.83 B (3.10) N/A
Tezcan, Faik CHEM 125 - Bioinorganic Chemistry (A) SP1115 10 90.0% 100.0% 5.83 B (3.10) N/A
Joseph, Simpson CHEM 13 - Chemistry of Life (A) SP11139 52 78.0% 91.8% 3.86 B+ (3.59) B+ (3.42)
Lindenberg, Katja CHEM 132 - Physical Chemistry (A) SP1195 42 61.0% 68.3% 8.64 B (3.05) C+ (2.49)
Sinha, Amitabha CHEM 135 - Molecular Spectroscopy (A) SP115 3 66.7% 100.0% 12.50 B (3.00) N/A
Yang, Jerry CHEM 140A - Organic Chemistry I (A) SP11290 108 92.5% 89.8% 8.98 B (3.09) C+ (2.61)
Whitesell, James K. CHEM 140B - Organic Chemistry II (A) SP11373 143 75.5% 41.0% 7.07 B (3.20) C+ (2.39)
Molinski, Tadeusz CHEM 140B - Organic Chemistry II (B) SP11202 83 81.7% 24.4% 8.33 B- (2.93) C+ (2.56)
Hoeger, Carl CHEM 140C - Organic Chemistry III (A) SP11321 148 80.8% 85.6% 8.97 B (3.04) B (3.13)
Ternansky, Robert J. CHEM 140C - Organic Chemistry III (B) SP11213 164 82.3% 86.5% 10.66 B (3.02) B- (2.92)
Tor, Yitzhak CHEM 140CH - Honors Organic Chemistry (A) SP1152 37 100.0% 100.0% 7.11 B+ (3.66) B+ (3.38)
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (A) SP11456 205 90.5% 91.6% 7.73 B+ (3.33) B- (2.99)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) SP1199 49 73.5% 81.3% 8.34 B (3.21) B (3.29)
Weizman, Haim CHEM 143D - Molecular Design & Synthesis (A) SP1115 9 100.0% 100.0% 8.94 B+ (3.56) N/A
Burkart, Michael D CHEM 157 - Natural Products Chemistry (A) SP1164 27 74.1% 92.6% 5.98 B (3.13) B (3.13)
Hermann, Thomas CHEM 157 - Natural Products Chemistry (A) SP1164 25 76.0% 88.0% 5.94 B (3.13) B (3.13)
Perrin, Charles L. CHEM 158 - Applied Spectroscopy (A) SP116 4 100.0% 100.0% 6.00 B+ (3.67) N/A
Baker, Timothy Stanley CHEM 164 - Structural Biology of Viruses (A) SP116 4 100.0% 100.0% 4.50 A- (3.75) N/A
Baker, Timothy Stanley CHEM 164 - Structural Biology of Viruses (A) SP1125 16 87.5% 93.8% 5.38 B+ (3.38) B (3.08)
Bertram, Timothy CHEM 173 - Atmospheric Chemistry (A) SP119 3 50.0% 100.0% 3.50 B+ (3.33) N/A
Dickson, Andrew Gilmore CHEM 174 - Chem Prin of Marine Systems (A) SP1148 16 87.5% 75.0% 3.43 B (3.20) B- (2.88)
Paesani, Francesco CHEM 185 - Intro/Computational Chemistry (A) SP117 3 100.0% 100.0% 9.17 B+ (3.67) N/A
Czworkowski, John CHEM 188 - Capstone Sem in Science Eductn (A) SP118 5 100.0% 100.0% 3.70 B+ (3.60) N/A
Tezcan, Faik CHEM 6A - General Chemistry I (A) SP11194 134 85.5% 84.0% 7.50 B (3.15) C+ (2.42)
Crowell, John E CHEM 6B - General Chemistry II (A) SP11347 128 75.8% 57.0% 7.67 B (3.03) C+ (2.55)
Crowell, John E CHEM 6B - General Chemistry II (B) SP11300 120 75.9% 58.6% 8.34 B- (2.95) C+ (2.55)
Hoeger, Carl CHEM 6C - General Chemistry III (A) SP11227 104 93.3% 87.4% 7.55 B (3.15) B- (2.98)
Brydges, Stacey CHEM 6C - General Chemistry III (B) SP11369 153 92.1% 86.2% 6.96 B+ (3.38) B (3.07)
Ghosh, Gourisankar CHEM 6C - General Chemistry III (C) SP11144 71 82.9% 37.1% 4.84 B+ (3.36) C+ (2.55)
Johnson, Christina A CHEM 6C - General Chemistry III (D) SP11352 179 87.6% 95.5% 7.64 B (3.27) B- (2.98)
Kubiak, Clifford Paul CHEM 6CH - Honors General Chemistry III (A) SP1173 44 79.5% 90.9% 6.45 B+ (3.59) B+ (3.34)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (A) SP11267 116 76.7% 84.3% 8.88 B+ (3.37) B- (2.80)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (B) SP11269 106 80.0% 87.6% 8.10 B (3.26) B- (2.80)
Cohen, Seth M CHEM 87 - Freshman Seminar (A) SP1111 5 100.0% 100.0% 0.50 N/A N/A
Tukey, Robert H CHEM 92 - Undergrad Pharmacology Seminar (A) SP11187 78 79.7% 87.8% 0.79 A (4.00) N/A
Czworkowski, John CHEM 96 - Introductn to Teaching Science (A) SP1115 10 100.0% 100.0% 3.10 B+ (3.44) N/A
Feng, Da Fei CHEM 100A - Analytical Chem Lab (A) WI1176 39 51.3% 59.0% 13.47 B (3.00) B (3.16)
Pomeroy, Robert S. CHEM 100B - Fundamentls/Instrumentl Analys (A) WI1121 13 69.2% 84.6% 6.19 B (3.23) B (3.14)
Pomeroy, Robert S. CHEM 100BL - Instrumental Analysis Lab (A) WI1120 13 75.0% 83.3% 8.50 B+ (3.36) B+ (3.49)
Viadiu, Hector CHEM 104 - Intro to X-ray Crystallography (A) WI1117 11 63.6% 81.8% 5.77 B (3.10) N/A
Tauber, Michael CHEM 105A - Physical Chemistry Laboratory (A) WI1136 26 88.5% 88.5% 9.50 B (3.16) C+ (2.68)
Pickham, Kathleen M CHEM 108 - Protein Biochemistry Lab (A) WI1132 9 88.9% 100.0% 11.17 B+ (3.33) B (3.15)
Pickham, Kathleen M CHEM 108 - Protein Biochemistry Lab (B) WI1134 17 76.5% 100.0% 9.32 B+ (3.56) B (3.15)
Toor, Navtej CHEM 114A - Biochemical Structure&Function (A) WI1186 48 89.6% 83.3% 7.29 B+ (3.49) B- (2.98)
Wang, Wei CHEM 114B - Biochem Energetics&Metabolism (A) WI11185 91 79.1% 57.8% 8.66 B+ (3.39) B- (2.79)
Nakagawa, Terunaga CHEM 12 - Molecules and Reactions (A) WI11158 63 57.1% 52.4% 4.47 B (3.10) B (3.29)
Hendrickson, David N CHEM 120B - Inorganic Chemistry II (A) WI1176 39 89.5% 82.1% 3.78 B+ (3.66) B+ (3.34)
Sailor, Michael Joseph CHEM 123 - Advanced Inorganic Chem Lab (A) WI1110 8 100.0% 100.0% 6.25 B+ (3.43) N/A
Crowell, John E CHEM 126 - Physical Chemistry (A) WI11164 68 55.9% 67.6% 8.21 B (3.08) C+ (2.61)
Paesani, Francesco CHEM 131 - Physical Chemistry (A) WI11127 64 73.0% 81.0% 7.92 B (3.08) C+ (2.56)
Gianneschi, Nathan CHEM 140A - Organic Chemistry I (A) WI11154 60 88.3% 95.0% 8.37 B (3.15) C+ (2.48)
Albizati, Kim F. CHEM 140A - Organic Chemistry I (B) WI11313 143 89.4% 97.9% 8.06 B (3.17) C+ (2.52)
Albizati, Kim F. CHEM 140A - Organic Chemistry I (C) WI11320 131 89.2% 100.0% 7.82 B (3.14) C+ (2.52)
Burkart, Michael D CHEM 140B - Organic Chemistry II (A) WI11379 241 82.8% 97.0% 9.16 B (3.16) B- (2.75)
Theodorakis, Emmanouil CHEM 140B - Organic Chemistry II (B) WI11340 165 84.7% 90.7% 8.52 B (3.06) B- (2.80)
Whitesell, James K. CHEM 140B - Organic Chemistry II (C) WI11173 73 88.9% 63.4% 7.92 B+ (3.44) C+ (2.61)
Weizman, Haim CHEM 140BH - Honors Organic Chemistry (A) WI1148 38 100.0% 100.0% 7.03 B+ (3.63) A- (3.75)
Jennings, Patricia A. CHEM 140C - Organic Chemistry III (A) WI11331 130 83.8% 45.4% 6.39 B+ (3.31) B- (2.98)
Ternansky, Robert J. CHEM 143A - Organic Chemistry Laboratory (A) WI11428 214 80.5% 83.3% 8.40 B (3.16) B (3.10)
Weizman, Haim CHEM 143AH - Honors Organic Chemistry Lab (A) WI1152 35 91.4% 94.3% 9.01 B+ (3.53) B+ (3.35)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) WI1175 44 83.3% 83.3% 9.38 B (3.12) B (3.20)
Pomeroy, Robert S. CHEM 149B - Environmental Chemistry (A) WI1125 12 100.0% 100.0% 4.83 A- (3.83) B+ (3.47)
Moore, Amy Lea CHEM 15 - Chemistry of the Universe (A) WI1159 31 79.3% 89.7% 3.30 B+ (3.58) B- (2.97)
Nicolaou, Kyriacos C CHEM 151 - Molecules That Changed World (A) WI1186 51 86.3% 92.2% 4.98 B+ (3.42) B+ (3.43)
Yang, Jerry CHEM 156 - Struct&Properties/Organc Molec (A) WI1121 12 91.7% 100.0% 4.50 B+ (3.55) B (3.06)
Baker, Timothy Stanley CHEM 165 - 3D Elctron Microscopy/Macromol (A) WI1111 7 85.7% 85.7% 5.07 A- (3.71) N/A
Pomeroy, Robert S. CHEM 172 - Environmental Chemistry (A) WI1125 12 100.0% 100.0% 4.83 A- (3.83) B+ (3.47)
Czworkowski, John CHEM 187 - Foundn of Teach&Learn Science (B) WI1113 7 100.0% 100.0% 2.79 A- (3.71) N/A
Sinha, Amitabha CHEM 6A - General Chemistry I (A) WI11279 132 85.3% 65.9% 7.21 B- (2.92) C+ (2.34)
Hoeger, Carl CHEM 6A - General Chemistry I (B) WI11307 154 96.0% 98.0% 8.33 B- (2.97) B- (2.78)
Trogler, William C CHEM 6A - General Chemistry I (C) WI11239 129 88.4% 86.0% 6.83 B (3.16) B- (2.90)
Muller, Ulrich K. CHEM 6B - General Chemistry II (A) WI11307 183 91.7% 78.9% 6.06 B (3.24) B- (2.79)
Brydges, Stacey CHEM 6B - General Chemistry II (B) WI11205 107 86.8% 90.7% 7.34 B (3.30) B- (2.80)
Johnson, Christina A CHEM 6B - General Chemistry II (C) WI11349 193 91.7% 93.8% 8.42 B (3.20) B- (2.90)
Kim, Judy E. CHEM 6B - General Chemistry II (D) WI11154 137 89.8% 81.8% 6.25 B (3.16) B- (2.74)
Kummel, Andrew C CHEM 6B - General Chemistry II (E) WI11365 296 81.0% 82.0% 8.10 B (3.04) C+ (2.64)
Hoeger, Carl CHEM 6BH - Honors General Chemistry II (A) WI1199 64 70.3% 87.5% 7.29 B+ (3.31) B (3.03)
Ghosh, Partho CHEM 6C - General Chemistry III (A) WI11239 130 86.2% 81.3% 6.33 B (3.15) C+ (2.47)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (A) WI11255 107 67.0% 85.8% 8.61 B+ (3.40) B- (2.85)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (B) WI11263 106 79.0% 88.7% 8.25 B+ (3.38) B- (2.85)
Czworkowski, John CHEM 87 - Freshman Seminar (A) WI1111 8 87.5% 87.5% 1.50 A (4.00) N/A
Czworkowski, John CHEM 96 - Introductn to Teaching Science (A) WI1118 8 87.5% 100.0% 3.50 A- (3.83) N/A
Feng, Da Fei CHEM 100A - Analytical Chem Lab (A) FA1073 39 52.6% 60.5% 12.04 B (3.14) B (3.07)
Pomeroy, Robert S. CHEM 100B - Fundamentls/Instrumentl Analys (A) FA1015 4 100.0% 100.0% 6.00 B (3.25) N/A
Pomeroy, Robert S. CHEM 100BL - Instrumental Analysis Lab (A) FA1014 4 100.0% 100.0% 5.00 B (3.25) N/A
Kim, Judy E. CHEM 105A - Physical Chemistry Laboratory (A) FA1027 11 100.0% 81.8% 7.50 B+ (3.60) B (3.02)
Pickham, Kathleen M CHEM 108 - Protein Biochemistry Lab (A) FA1028 15 86.7% 100.0% 6.77 B+ (3.57) B+ (3.33)
Pickham, Kathleen M CHEM 108 - Protein Biochemistry Lab (B) FA1017 10 100.0% 90.0% 11.30 B+ (3.40) N/A
Brydges, Stacey CHEM 11 - The Periodic Table (A) FA10144 75 85.1% 97.3% 5.31 B+ (3.33) B (3.23)
Brydges, Stacey CHEM 11 - The Periodic Table (B) FA10141 74 83.3% 95.8% 5.28 B+ (3.32) B (3.23)
Viadiu, Hector CHEM 114A - Biochemical Structure&Function (A) FA10210 135 88.8% 90.3% 7.65 B+ (3.39) B- (2.74)
Donoghue, Daniel J. CHEM 114D - Molecular & Cellular Biochem (A) FA1014 4 75.0% 100.0% 4.50 A- (3.75) N/A
Komives, Elizabeth A CHEM 116 - Enzyme Catalyzed Reactions (A) FA1027 15 93.3% 93.3% 5.30 B+ (3.60) B+ (3.51)
Figueroa, Joshua CHEM 120A - Inorganic Chemistry I (A) FA10148 77 80.5% 76.6% 6.81 B+ (3.33) B (3.02)
Tauber, Michael CHEM 127 - Physical Chemistry (A) FA10165 96 75.0% 91.7% 8.20 B (3.13) C+ (2.57)
Galperin, Michael CHEM 133 - Physical Chemistry (A) FA1054 27 51.9% 66.7% 9.98 B- (2.96) C+ (2.48)
Ternansky, Robert J. CHEM 140A - Organic Chemistry I (A) FA10256 173 91.9% 88.4% 11.60 B (3.09) C+ (2.68)
Whitesell, James K. CHEM 140A - Organic Chemistry I (B) FA10172 78 96.2% 73.1% 7.75 B+ (3.35) C+ (2.39)
Perrin, Charles L. CHEM 140A - Organic Chemistry I (C) FA10369 174 85.5% 90.6% 8.99 B (3.02) C+ (2.65)
Oconnor, Joseph M. CHEM 140A - Organic Chemistry I (D) FA10378 203 85.1% 95.0% 9.06 B (3.18) C+ (2.68)
Hoeger, Carl CHEM 140B - Organic Chemistry II (A) FA10273 115 74.6% 89.6% 9.86 B (3.03) C+ (2.62)
Hermann, Thomas CHEM 140C - Organic Chemistry III (A) FA10350 165 86.1% 87.3% 7.46 B (3.10) C+ (2.48)
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (A) FA10457 196 85.1% 87.1% 8.04 B+ (3.31) B (3.04)
Ternansky, Robert J. CHEM 143C - Organic Chemistry Laboratory (A) FA1073 52 94.2% 98.1% 6.74 B+ (3.42) B (3.15)
Bertram, Timothy CHEM 149A - Environmental Chemistry (A) FA1056 35 88.6% 91.4% 5.59 B+ (3.41) B (3.14)
Theodorakis, Emmanouil CHEM 152 - Synthetic Methods/Organic Chem (A) FA1032 16 93.8% 100.0% 3.25 B+ (3.69) B+ (3.56)
Tor, Yitzhak CHEM 154 - Mechanisms/Organic Reactions (A) FA1050 25 96.0% 96.0% 5.78 B+ (3.44) B (3.21)
Bertram, Timothy CHEM 171 - Environmental Chemistry (A) FA1056 35 88.6% 91.4% 5.59 B+ (3.41) B (3.14)
Hoeger, Carl CHEM 4 - Basic Chemistry (A) FA10307 188 95.7% 95.7% 9.31 B (3.19) B (3.01)
Magde, Douglas CHEM 6A - General Chemistry I (A) FA10328 207 89.6% 56.4% 7.43 B (3.15) B- (2.80)
Czworkowski, John CHEM 6A - General Chemistry I (B) FA10340 203 92.1% 77.2% 6.74 B (3.25) B- (2.83)
Czworkowski, John CHEM 6A - General Chemistry I (C) FA10342 166 89.0% 75.5% 6.56 B (3.21) B- (2.83)
Sailor, Michael Joseph CHEM 6A - General Chemistry I (D) FA10318 177 95.4% 91.4% 6.14 B+ (3.39) B- (2.89)
Johnson, Christina A CHEM 6A - General Chemistry I (E) FA10330 188 92.5% 96.2% 8.63 B (3.19) B (3.24)
Weare, John H. CHEM 6AH - Honors General Chemistry I (A) FA10158 101 43.6% 31.0% 8.08 B+ (3.40) B+ (3.46)
Crowell, John E CHEM 6B - General Chemistry II (A) FA10273 124 86.2% 74.8% 7.36 B (3.13) C+ (2.46)
Rheingold, Arnold L CHEM 6C - General Chemistry III (A) FA10191 84 78.6% 44.6% 6.52 B- (2.81) C+ (2.48)
Pomeroy, Robert S. CHEM 6C - General Chemistry III (B) FA10143 61 86.9% 72.1% 7.17 B (3.08) C+ (2.68)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (A) FA10247 114 73.2% 83.9% 8.39 B+ (3.36) B- (2.91)
Berniolles, Sandrine CHEM 7L - General Chemistry Laboratory (B) FA10252 120 71.7% 75.6% 8.62 B+ (3.34) B- (2.91)
Czworkowski, John CHEM 87 - Freshman Seminar (A) FA1018 12 91.7% 100.0% 0.83 A (4.00) N/A
Brydges, Stacey CHEM 87 - Freshman Seminar (B) FA1019 16 100.0% 100.0% 0.63 A (4.00) N/A
Weizman, Haim CHEM 87 - Freshman Seminar (C) FA1012 10 90.0% 90.0% 0.50 A (4.00) N/A
Pomeroy, Robert S. CHEM 100A - Analytical Chem Lab (A) SU1021 8 87.5% 87.5% 12.75 B+ (3.63) N/A
Knowles, Aileen CHEM 114A - Biochemical Structure&Function (A) SU1034 16 93.8% 100.0% 9.50 B+ (3.56) N/A
Oconnor, Joseph M. CHEM 140A - Organic Chemistry I (A) SU10193 63 84.1% 98.4% 12.66 B+ (3.33) N/A
Oconnor, Joseph M. CHEM 140B - Organic Chemistry II (A) SU10226 61 78.7% 100.0% 12.50 B (3.05) N/A
Weizman, Haim CHEM 140B - Organic Chemistry II (B) SU10146 38 84.2% 97.4% 9.50 B+ (3.31) N/A
Ternansky, Robert J. CHEM 140C - Organic Chemistry III (A) SU1091 76 68.4% 83.6% 14.21 B- (2.95) N/A
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (A) SU1092 37 94.6% 88.9% 11.58 B+ (3.36) N/A
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) SU1022 14 92.9% 92.9% 8.07 B+ (3.36) N/A
Russell, Lynn M. CHEM 149A - Environmental Chemistry (A) SU1033 9 88.9% 100.0% 5.61 B+ (3.33) N/A
Russell, Lynn M. CHEM 171 - Environmental Chemistry (A) SU1033 9 88.9% 100.0% 5.61 B+ (3.33) N/A
Hoeger, Carl CHEM 6A - General Chemistry I (B) SU1080 20 85.0% 68.4% 11.80 B+ (3.56) N/A
Johnson, Christina A CHEM 6B - General Chemistry II (A) SU1077 20 85.0% 90.0% 10.60 B (3.05) N/A
Pomeroy, Robert S. CHEM 6B - General Chemistry II (A) SU1050 12 83.3% 91.7% 9.33 B- (2.75) N/A
Berniolles, Sandrine CHEM 6BL - Intr Inorganic Chem Laboratory (A) SU10188 72 66.7% 90.1% 12.86 B+ (3.52) N/A
Hoeger, Carl CHEM 6C - General Chemistry III (A) SU10121 44 90.9% 86.4% 8.22 B (3.16) N/A
Johnson, Christina A CHEM 6C - General Chemistry III (A) SU10128 45 97.8% 100.0% 9.18 B (3.14) N/A
Feng, Da Fei CHEM 100A - Analytical Chem Lab (A) SP1088 50 73.5% 80.0% 10.66 B+ (3.37) B (3.20)
Pomeroy, Robert S. CHEM 100B - Fundamentls/Instrumentl Analys (A) SP1015 7 85.7% 85.7% 7.93 B+ (3.57) N/A
Pomeroy, Robert S. CHEM 100BL - Instrumental Analysis Lab (A) SP1013 5 75.0% 75.0% 10.10 B+ (3.40) N/A
Magde, Douglas CHEM 105A - Physical Chemistry Laboratory (A) SP1065 30 83.3% 86.7% 9.83 B+ (3.50) B (3.21)
Stuart, Christina CHEM 105A - Physical Chemistry Laboratory (A) SP1065 21 88.2% 100.0% 8.39 B+ (3.50) B (3.13)
Crowley, Thomas E. CHEM 109 - Molecular Biochemistry Lab (A) SP1028 17 82.4% 100.0% 9.68 A- (3.71) B+ (3.53)
Ghosh, Gourisankar CHEM 109 - Molecular Biochemistry Lab (B) SP1028 11 90.9% 81.8% 7.05 A- (3.82) B+ (3.38)
Donoghue, Daniel J. CHEM 11 - The Periodic Table (A) SP10158 63 85.7% 95.2% 3.98 B+ (3.68) B (3.18)
Crowley, Thomas E. CHEM 112B - Molecular Biochemistry Lab (A) SP1028 17 82.4% 100.0% 9.68 A- (3.71) B+ (3.53)
Ghosh, Gourisankar CHEM 112B - Molecular Biochemistry Lab (B) SP1028 11 90.9% 81.8% 7.05 A- (3.82) B+ (3.38)
Hoffmann, Alexander CHEM 114C - Biosynthesis of Macromolecules (A) SP10201 81 87.5% 90.0% 6.68 B (3.26) B- (2.71)
Tukey, Robert H CHEM 118 - Pharmacology and Toxicology (A) SP10110 58 98.2% 93.0% 6.16 B+ (3.49) B- (2.71)
Figueroa, Joshua CHEM 120A - Inorganic Chemistry I (A) SP10102 55 74.5% 78.2% 6.57 B (3.12) C+ (2.60)
Rheingold, Arnold L CHEM 120A - Inorganic Chemistry I (A) SP10102 50 72.3% 63.8% 5.97 B (3.14) C+ (2.60)
Sailor, Michael Joseph CHEM 123 - Advanced Inorganic Chem Lab (A) SP1010 6 100.0% 100.0% 6.17 B (3.17) N/A
Cohen, Seth M CHEM 124 - Bioinorganic Chemistry (A) SP1033 19 73.7% 94.7% 5.72 B (3.25) C+ (2.58)
Cohen, Seth M CHEM 125 - Bioinorganic Chemistry (A) SP1033 19 73.7% 94.7% 5.72 B (3.25) C+ (2.58)
Joseph, Simpson CHEM 13 - Chemistry of Life (A) SP10145 63 81.7% 88.3% 4.60 B+ (3.30) B (3.11)
Galperin, Michael CHEM 133 - Physical Chemistry (A) SP1060 31 38.7% 41.9% 8.11 B- (2.79) B+ (3.41)
Yang, Jerry CHEM 140A - Organic Chemistry I (A) SP10299 120 82.4% 83.9% 7.83 B- (2.99) C+ (2.41)
Hoeger, Carl CHEM 140B - Organic Chemistry II (A) SP10350 140 73.0% 82.6% 8.69 B- (2.87) C+ (2.53)
Hoeger, Carl CHEM 140B - Organic Chemistry II (B) SP10361 165 70.1% 79.6% 9.00 B- (2.84) C+ (2.53)
Albizati, Kim F. CHEM 140C - Organic Chemistry III (A) SP10367 166 85.7% 99.4% 7.46 B (3.15) C+ (2.63)
Ternansky, Robert J. CHEM 140C - Organic Chemistry III (B) SP10249 135 83.5% 87.4% 10.56 B (3.17) B- (2.73)
Tor, Yitzhak CHEM 140CH - Honors Organic Chemistry (A) SP1055 40 100.0% 100.0% 6.20 A- (3.73) B+ (3.48)
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (A) SP10395 162 84.5% 83.5% 8.29 B (3.24) B (3.01)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) SP1084 46 73.9% 78.3% 7.15 B- (2.87) B+ (3.38)
Weizman, Haim CHEM 143D - Molecular Design & Synthesis (A) SP1015 8 100.0% 100.0% 12.50 B+ (3.38) N/A
Burkart, Michael D CHEM 157 - Natural Products Chemistry (A) SP1060 29 89.3% 93.1% 5.93 B (3.30) B (3.24)
Baker, Timothy Stanley CHEM 164 - Structural Biology of Viruses (A) SP1014 5 80.0% 100.0% 4.10 B+ (3.33) N/A
Molina, Mario CHEM 173 - Atmospheric Chemistry (A) SP109 3 100.0% 100.0% 5.17 B+ (3.67) N/A
Prather, Kimberly A CHEM 173 - Atmospheric Chemistry (A) SP109 3 100.0% 100.0% 5.17 B+ (3.67) N/A
Dickson, Andrew Gilmore CHEM 174 - Chem Prin of Marine Systems (A) SP1051 24 75.0% 79.2% 4.08 B+ (3.39) B (3.06)
Czworkowski, John CHEM 188 - Capstone Sem in Science Eductn (A) SP1011 8 100.0% 100.0% 4.50 B+ (3.50) N/A
Tezcan, Faik CHEM 6A - General Chemistry I (A) SP10157 75 82.4% 79.7% 6.14 B (3.06) C- (1.96)
Crowell, John E CHEM 6B - General Chemistry II (A) SP10295 113 70.9% 53.2% 7.34 C+ (2.69) C (2.29)
Johnson, Christina A CHEM 6B - General Chemistry II (B) SP10333 153 85.8% 98.0% 8.55 B- (2.99) C+ (2.55)
Berniolles, Sandrine CHEM 6BL - Intr Inorganic Chem Laboratory (A) SP10247 125 69.6% 79.8% 8.97 B+ (3.35) B- (2.97)
Berniolles, Sandrine CHEM 6BL - Intr Inorganic Chem Laboratory (B) SP10267 131 73.4% 77.3% 8.84 B (3.29) B- (2.97)
Kubiak, Clifford Paul CHEM 6C - General Chemistry III (A) SP10351 185 89.6% 75.8% 6.71 B (3.25) B- (2.85)
Brydges, Stacey CHEM 6C - General Chemistry III (B) SP10102 36 91.4% 82.9% 5.99 B+ (3.33) B- (2.99)
Brydges, Stacey CHEM 6C - General Chemistry III (C) SP10226 100 90.9% 81.6% 6.62 B (3.25) B- (2.99)
Johnson, Christina A CHEM 6C - General Chemistry III (D) SP10349 177 87.0% 98.9% 7.96 B (3.29) B- (2.95)
Cohen, Seth M CHEM 6CH - Honors General Chemistry III (A) SP1087 72 88.9% 98.6% 6.28 B+ (3.34) B- (2.77)
Weizman, Haim CHEM 87 - Freshman Seminar (A) SP1015 8 87.5% 100.0% 1.50 N/A N/A
Tukey, Robert H CHEM 92 - Undergrad Pharmacology Seminar (A) SP10151 71 92.9% 97.1% 1.04 A- (3.80) N/A
Czworkowski, John CHEM 96 - Introductn to Teaching Science (A) SP1012 5 100.0% 100.0% 4.50 B+ (3.60) N/A
Feng, Da Fei CHEM 100A - Analytical Chem Lab (A) WI1055 26 61.5% 72.0% 12.96 B+ (3.50) B- (2.95)
Pomeroy, Robert S. CHEM 100B - Fundamentls/Instrumentl Analys (A) WI1015 6 83.3% 100.0% 8.83 C+ (2.67) N/A
Pomeroy, Robert S. CHEM 100BL - Instrumental Analysis Lab (A) WI1014 6 83.3% 100.0% 9.17 B (3.00) N/A
Kim, Judy E. CHEM 105A - Physical Chemistry Laboratory (A) WI1031 14 85.7% 85.7% 9.36 B+ (3.38) B- (2.89)
Crowley, Thomas E. CHEM 108 - Molecular Biochemistry Lab (A) WI1033 15 71.4% 92.9% 8.64 B+ (3.38) B+ (3.31)
Crowley, Thomas E. CHEM 108 - Molecular Biochemistry Lab (B) WI1020 10 100.0% 100.0% 6.30 B+ (3.50) B+ (3.31)
Crowley, Thomas E. CHEM 112A - Molecular Biochemistry Lab (A) WI1033 15 71.4% 92.9% 8.64 B+ (3.38) B+ (3.31)
Crowley, Thomas E. CHEM 112A - Molecular Biochemistry Lab (B) WI1020 10 100.0% 100.0% 6.30 B+ (3.50) B+ (3.31)
Opella, Stanley J CHEM 114A - Biochemical Structure&Function (A) WI1085 29 100.0% 89.7% 4.16 B+ (3.69) B- (2.85)
Dorrestein, Pieter CHEM 114B - Biochem Energetics&Metabolism (A) WI10198 67 73.1% 81.8% 7.01 B+ (3.38) C+ (2.69)
Wang, Wei CHEM 114B - Biochem Energetics&Metabolism (A) WI10198 67 70.1% 49.3% 7.23 B+ (3.35) C+ (2.69)
Nakagawa, Terunaga CHEM 12 - Molecules and Reactions (A) WI10174 76 41.1% 32.4% 4.45 B- (2.76) B (3.28)
Hendrickson, David N CHEM 120B - Inorganic Chemistry II (A) WI1067 31 83.3% 80.0% 3.92 B+ (3.58) B+ (3.32)
Sailor, Michael Joseph CHEM 123 - Advanced Inorganic Chem Lab (A) WI109 6 100.0% 100.0% 4.50 B+ (3.67) N/A
Tauber, Michael CHEM 127 - Physical Chemistry (A) WI10169 73 52.8% 65.8% 8.94 B (3.20) C+ (2.59)
Lindenberg, Katja CHEM 132 - Physical Chemistry (A) WI1079 35 82.9% 91.4% 8.04 B+ (3.32) C+ (2.50)
Gianneschi, Nathan CHEM 140A - Organic Chemistry I (A) WI10359 141 84.4% 88.7% 8.10 B (3.13) C+ (2.47)
Oconnor, Joseph M. CHEM 140A - Organic Chemistry I (B) WI10385 129 82.2% 92.2% 8.62 B (3.12) C+ (2.60)
Whitesell, James K. CHEM 140A - Organic Chemistry I (C) WI10142 34 82.4% 55.9% 6.97 B (3.03) C+ (2.37)
Burkart, Michael D CHEM 140B - Organic Chemistry II (A) WI10391 193 83.9% 96.3% 7.85 B (3.21) B- (2.88)
Theodorakis, Emmanouil CHEM 140B - Organic Chemistry II (B) WI10365 125 70.2% 82.3% 8.29 B (3.02) C+ (2.60)
Hoeger, Carl CHEM 140B - Organic Chemistry II (C) WI10277 97 86.6% 90.6% 9.32 B (3.16) C+ (2.62)
Weizman, Haim CHEM 140BH - Honors Organic Chemistry (A) WI1049 35 94.1% 97.1% 6.44 B+ (3.69) A- (3.81)
Albizati, Kim F. CHEM 140C - Organic Chemistry III (A) WI10360 122 82.8% 97.5% 7.57 B (3.05) C+ (2.54)
Ternansky, Robert J. CHEM 143A - Organic Chemistry Laboratory (A) WI10373 165 76.4% 92.1% 6.34 B (3.19) B (3.11)
Weizman, Haim CHEM 143AH - Honors Organic Chemistry Lab (A) WI1042 24 91.7% 95.8% 7.92 B+ (3.42) B (3.22)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) WI1068 30 83.3% 83.3% 9.37 B+ (3.33) B (3.27)
Perrin, Charles L. CHEM 146 - Kinetics & Mechan of Org React (A) WI1010 6 80.0% 100.0% 6.50 B (3.20) N/A
Pomeroy, Robert S. CHEM 149B - Environmental Chemistry (A) WI1028 21 95.2% 100.0% 5.45 B (3.20) B (3.09)
Wilson, Beth CHEM 15 - Chemistry of the Universe (A) WI1066 23 78.3% 60.9% 2.41 B (3.29) B (3.26)
Nicolaou, Kyriacos C CHEM 151 - Molecules That Changed World (A) WI10106 50 89.8% 92.0% 4.82 B+ (3.57) B (3.13)
Yang, Jerry CHEM 156 - Struct&Properties/Organc Molec (A) WI1017 7 85.7% 100.0% 6.50 A- (3.71) N/A
Baker, Timothy Stanley CHEM 165 - 3D Elctron Microscopy/Macromol (A) WI1011 6 100.0% 100.0% 5.50 B (3.00) N/A
Pomeroy, Robert S. CHEM 172 - Environmental Chemistry (A) WI1028 21 95.2% 100.0% 5.45 B (3.20) B (3.09)
Czworkowski, John CHEM 187 - Foundn of Teach&Learn Science (A) WI1013 6 100.0% 100.0% 4.50 A- (3.80) N/A
Newsam, John CHEM 192 - Sr Seminar in Chem & Biochem (A) WI106 4 100.0% 100.0% 1.00 N/A N/A
Sinha, Amitabha CHEM 6A - General Chemistry I (A) WI10116 48 80.4% 66.7% 7.57 B- (2.86) C+ (2.36)
Hoeger, Carl CHEM 6A - General Chemistry I (B) WI10307 149 90.6% 94.0% 8.26 B- (2.97) C+ (2.69)
Weinberger, Leor CHEM 6A - General Chemistry I (C) WI10302 228 90.7% 79.1% 5.61 B (3.15) B- (2.90)
Muller, Ulrich K. CHEM 6B - General Chemistry II (A) WI10196 105 91.4% 65.7% 5.06 B+ (3.33) C+ (2.64)
Brydges, Stacey CHEM 6B - General Chemistry II (B) WI1092 44 93.2% 93.2% 7.23 B (3.19) B- (2.80)
Johnson, Christina A CHEM 6B - General Chemistry II (C) WI10346 179 90.9% 93.8% 8.41 B (3.23) B- (2.89)
Johnson, Christina A CHEM 6B - General Chemistry II (D) WI10350 171 92.2% 91.1% 8.82 B (3.25) B- (2.89)
Kummel, Andrew C CHEM 6B - General Chemistry II (E) WI10339 189 87.0% 82.2% 7.58 B (3.05) C+ (2.67)
Weare, John H. CHEM 6BH - Honors General Chemistry II (A) WI10118 68 61.8% 42.6% 7.56 B (3.24) B+ (3.45)
Berniolles, Sandrine CHEM 6BL - Intr Inorganic Chem Laboratory (A) WI10239 93 72.5% 78.0% 8.57 B (3.24) B- (2.88)
Berniolles, Sandrine CHEM 6BL - Intr Inorganic Chem Laboratory (B) WI10242 91 70.5% 78.7% 8.34 B (3.25) B- (2.88)
Ghosh, Partho CHEM 6C - General Chemistry III (A) WI10264 109 87.5% 84.3% 5.38 B (3.15) B- (2.81)
Czworkowski, John CHEM 87 - Freshman Seminar (A) WI1013 8 100.0% 100.0% 1.07 N/A N/A
Weizman, Haim CHEM 87 - Freshman Seminar (B) WI1017 9 66.7% 77.8% 0.50 N/A N/A
Czworkowski, John CHEM 96 - Introductn to Teaching Science (A) WI1015 8 87.5% 100.0% 3.93 A- (3.86) N/A
Feng, Da Fei CHEM 100A - Analytical Chem Lab (A) FA0975 66 68.2% 80.3% 8.05 B+ (3.57) B (3.11)
Tauber, Michael CHEM 105A - Physical Chemistry Laboratory (A) FA0920 19 50.0% 83.3% 10.08 B- (2.94) B- (2.88)
Crowley, Thomas E. CHEM 108 - Molecular Biochemistry Lab (A) FA0933 15 92.3% 100.0% 8.10 B+ (3.38) B (3.30)
Jennings, Patricia A. CHEM 108 - Molecular Biochemistry Lab (A) FA0933 15 93.3% 86.7% 8.63 B+ (3.38) B (3.30)
Crowley, Thomas E. CHEM 108 - Molecular Biochemistry Lab (B) FA0930 20 94.7% 94.7% 6.40 B+ (3.32) B (3.30)
Jennings, Patricia A. CHEM 108 - Molecular Biochemistry Lab (B) FA0930 12 91.7% 91.7% 6.00 B+ (3.33) B (3.30)
Brydges, Stacey CHEM 11 - The Periodic Table (A) FA09213 141 84.6% 95.6% 3.98 B+ (3.33) B (3.23)
Brydges, Stacey CHEM 11 - The Periodic Table (B) FA09210 159 77.6% 85.8% 3.57 B+ (3.54) B (3.23)
Crowley, Thomas E. CHEM 112A - Molecular Biochemistry Lab (A) FA0933 15 92.3% 100.0% 8.10 B+ (3.38) B (3.30)
Jennings, Patricia A. CHEM 112A - Molecular Biochemistry Lab (A) FA0933 15 93.3% 86.7% 8.63 B+ (3.38) B (3.30)
Crowley, Thomas E. CHEM 112A - Molecular Biochemistry Lab (B) FA0930 20 94.7% 94.7% 6.40 B+ (3.33) B (3.30)
Jennings, Patricia A. CHEM 112A - Molecular Biochemistry Lab (B) FA0930 12 91.7% 91.7% 6.00 B+ (3.33) B (3.30)
Viadiu, Hector CHEM 114A - Biochemical Structure&Function (A) FA09190 154 89.5% 84.8% 5.75 B+ (3.40) B- (2.99)
Hendrickson, David N CHEM 120A - Inorganic Chemistry I (A) FA09193 79 94.8% 96.1% 4.12 A- (3.76) B+ (3.32)
Crowell, John E CHEM 126 - Physical Chemistry (A) FA09161 32 69.0% 79.3% 8.44 B+ (3.34) C+ (2.54)
Lindenberg, Katja CHEM 131 - Physical Chemistry (A) FA09100 69 69.1% 80.9% 9.08 B (3.12) C+ (2.37)
Ternansky, Robert J. CHEM 140A - Organic Chemistry I (A) FA09215 191 83.2% 95.3% 9.49 B (3.20) B- (2.72)
Whitesell, James K. CHEM 140A - Organic Chemistry I (B) FA09176 70 81.2% 60.9% 6.41 B+ (3.42) C (2.19)
Perrin, Charles L. CHEM 140A - Organic Chemistry I (C) FA09336 255 91.8% 96.0% 7.20 B (3.23) C+ (2.68)
Albizati, Kim F. CHEM 140A - Organic Chemistry I (D) FA09296 238 91.1% 99.2% 7.05 B (3.23) B- (2.72)
Kobayashi, Yoshihisa CHEM 140B - Organic Chemistry II (A) FA09344 86 69.4% 39.3% 6.83 B (3.04) C+ (2.50)
Hermann, Thomas CHEM 140C - Organic Chemistry III (A) FA09279 195 86.7% 89.7% 6.59 B+ (3.36) B- (2.73)
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (A) FA09468 177 81.4% 93.0% 7.67 B+ (3.37) B (3.02)
Ternansky, Robert J. CHEM 143C - Organic Chemistry Laboratory (A) FA0971 64 90.5% 96.8% 5.71 B+ (3.30) B (3.21)
Pomeroy, Robert S. CHEM 149A - Environmental Chemistry (A) FA0975 58 96.5% 94.8% 4.84 B+ (3.39) B (3.20)
Oconnor, Joseph M. CHEM 152 - Synthetic Methods/Organic Chem (A) FA0922 26 73.1% 96.2% 3.42 B+ (3.58) B (3.27)
Tor, Yitzhak CHEM 154 - Mechanisms/Organic Reactions (A) FA0948 56 100.0% 98.2% 4.64 B+ (3.53) B+ (3.62)
Pomeroy, Robert S. CHEM 171 - Environmental Chemistry (A) FA0975 58 96.5% 94.8% 4.84 B+ (3.39) B (3.20)
Kim, Judy E. CHEM 192 - Sr Seminar in Chem & Biochem (A) FA096 5 100.0% 100.0% 1.70 N/A N/A
Hoeger, Carl CHEM 4 - Basic Chemistry (A) FA09297 123 95.1% 95.9% 5.70 B (3.07) B- (2.85)
Czworkowski, John CHEM 6A - General Chemistry I (A) FA09252 201 82.7% 64.0% 5.94 B (3.07) C+ (2.68)
Czworkowski, John CHEM 6A - General Chemistry I (B) FA09279 228 86.3% 61.9% 6.68 B (3.09) C+ (2.68)
Johnson, Christina A CHEM 6A - General Chemistry I (C) FA09340 289 95.8% 99.3% 7.56 B (3.27) B- (2.88)
Stuart, Christina CHEM 6A - General Chemistry I (D) FA09333 248 93.8% 92.1% 7.68 B (3.09) C+ (2.66)
Stuart, Christina CHEM 6A - General Chemistry I (E) FA09328 222 90.0% 92.3% 7.40 B (3.10) C+ (2.66)
Hoeger, Carl CHEM 6AH - Honors General Chemistry I (A) FA09151 98 79.6% 99.0% 7.52 B (3.03) B- (2.80)
Kim, Judy E. CHEM 6B - General Chemistry II (A) FA09269 167 83.6% 79.3% 6.20 B (3.05) C+ (2.60)
Berniolles, Sandrine CHEM 6BL - Intr Inorganic Chem Laboratory (A) FA09253 100 59.8% 83.7% 9.62 B (3.27) B- (2.87)
Berniolles, Sandrine CHEM 6BL - Intr Inorganic Chem Laboratory (B) FA09253 46 58.1% 77.3% 8.20 B+ (3.39) B- (2.87)
Johnson, Christina A CHEM 6C - General Chemistry III (A) FA09293 220 85.4% 98.1% 6.19 B (3.00) B- (2.77)
Trogler, William C CHEM 6C - General Chemistry III (B) FA09173 60 84.5% 67.8% 5.17 B (3.27) C+ (2.62)
Czworkowski, John CHEM 87 - Freshman Seminar (A) FA0911 11 100.0% 100.0% 1.23 N/A N/A
Ellis, Arthur CHEM 87 - Freshman Seminar (B) FA0917 17 100.0% 100.0% 0.50 A (4.00) N/A
Fox, Marye Anne CHEM 87 - Freshman Seminar (B) FA0917 17 100.0% 100.0% 0.50 N/A N/A
Pomeroy, Robert S. CHEM 100A - Analytical Chem Lab (A) SU0918 11 63.6% 90.9% 12.32 B+ (3.50) N/A
Knowles, Aileen CHEM 114A - Biochemical Structure&Function (A) SU0944 16 93.8% 68.8% 9.38 B (3.25) N/A
Oconnor, Joseph M. CHEM 140A - Organic Chemistry I (A) SU09224 50 89.8% 97.9% 12.21 B (3.19) N/A
Oconnor, Joseph M. CHEM 140B - Organic Chemistry II (A) SU09319 113 74.1% 96.4% 12.09 B (3.07) N/A
Ternansky, Robert J. CHEM 140C - Organic Chemistry III (A) SU0969 35 74.3% 93.9% 13.70 B- (2.85) N/A
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (A) SU0985 30 83.3% 93.3% 11.03 B (3.24) N/A
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) SU0920 13 92.3% 92.3% 6.81 B (3.23) N/A
Brydges, Stacey CHEM 6A - General Chemistry I (A) SU0936 12 100.0% 100.0% 8.33 B (3.08) N/A
Hoeger, Carl CHEM 6A - General Chemistry I (A) SU0967 22 81.8% 77.3% 9.32 B- (2.95) N/A
Johnson, Christina A CHEM 6B - General Chemistry II (A) SU0972 20 75.0% 100.0% 10.00 B (3.26) N/A
Pomeroy, Robert S. CHEM 6B - General Chemistry II (A) SU0943 22 90.9% 72.7% 8.68 B- (2.86) N/A
Berniolles, Sandrine CHEM 6BL - Intr Inorganic Chem Laboratory (A) SU09158 59 67.8% 89.7% 11.96 B+ (3.33) N/A
Hoeger, Carl CHEM 6C - General Chemistry III (A) SU0971 27 88.9% 96.2% 8.43 B (3.12) N/A
Johnson, Christina A CHEM 6C - General Chemistry III (A) SU09117 42 92.9% 95.2% 8.11 B (3.26) N/A
Feng, Da Fei CHEM 100A - Analytical Chem Lab (A) SP0958 58 69.1% 75.0% 8.84 B+ (3.30) B- (2.93)
Pomeroy, Robert S. CHEM 100B - Fundamentls/Instrumentl Analys (A) SP0926 19 66.7% 84.2% 8.08 B (3.21) B- (2.75)
Pomeroy, Robert S. CHEM 100BL - Instrumental Analysis Lab (A) SP0924 23 81.8% 87.0% 8.50 B (3.22) B+ (3.54)
Stuart, Christina CHEM 105A - Physical Chemistry Laboratory (A) SP0952 23 72.7% 90.9% 8.15 B (3.23) B (3.15)
Crowley, Thomas E. CHEM 109 - Molecular Biochemistry Lab (A) SP0934 21 90.0% 80.0% 7.10 B+ (3.30) B+ (3.32)
Ghosh, Gourisankar CHEM 109 - Molecular Biochemistry Lab (A) SP0934 20 75.0% 30.0% 8.00 B+ (3.33) B+ (3.32)
Crowley, Thomas E. CHEM 109 - Molecular Biochemistry Lab (B) SP0931 22 90.9% 68.2% 5.32 B+ (3.35) B+ (3.32)
Ghosh, Gourisankar CHEM 109 - Molecular Biochemistry Lab (B) SP0931 17 94.1% 82.4% 5.21 B+ (3.35) B+ (3.32)
Crowley, Thomas E. CHEM 112B - Molecular Biochemistry Lab (A) SP0934 21 90.0% 80.0% 7.10 B+ (3.30) B+ (3.39)
Ghosh, Gourisankar CHEM 112B - Molecular Biochemistry Lab (A) SP0934 20 75.0% 30.0% 8.00 B+ (3.30) B+ (3.32)
Crowley, Thomas E. CHEM 112B - Molecular Biochemistry Lab (B) SP0931 22 90.9% 68.2% 5.32 B+ (3.35) B+ (3.39)
Ghosh, Gourisankar CHEM 112B - Molecular Biochemistry Lab (B) SP0931 17 94.1% 82.4% 5.21 B+ (3.35) B+ (3.32)
Hoffmann, Alexander CHEM 114C - Biosynthesis of Macromolecules (A) SP09201 88 92.7% 98.8% 5.69 B+ (3.39) C+ (2.62)
Printz, Morton P. CHEM 118 - Pharmacology and Toxicology (A) SP09142 67 98.5% 98.5% 4.98 B+ (3.60) B+ (3.53)
Tezcan, Faik CHEM 124 - Bioinorganic Chemistry (A) SP0927 28 85.7% 85.7% 5.86 B (3.15) C+ (2.44)
Tezcan, Faik CHEM 125 - Bioinorganic Chemistry (A) SP0927 28 85.7% 85.7% 5.86 B (3.15) C+ (2.44)
Crowley, Thomas E. CHEM 13 - Chemistry of Life (A) SP09138 100 29.8% 27.2% 2.50 B (3.14) B+ (3.30)
Sinha, Amitabha CHEM 133 - Physical Chemistry (A) SP0974 38 51.4% 83.3% 8.39 B- (2.91) C+ (2.57)
Oconnor, Joseph M. CHEM 140A - Organic Chemistry I (A) SP09337 26 96.0% 92.3% 6.81 B+ (3.48) C+ (2.41)
Glazer, Edith C CHEM 140B - Organic Chemistry II (A) SP09194 125 64.8% 63.9% 9.47 B- (2.78) C+ (2.52)
Molinski, Tadeusz CHEM 140B - Organic Chemistry II (B) SP09318 152 69.3% 46.7% 7.43 B (3.08) C+ (2.32)
Albizati, Kim F. CHEM 140C - Organic Chemistry III (A) SP09353 235 85.4% 99.1% 6.26 B+ (3.35) B- (2.77)
Ternansky, Robert J. CHEM 140C - Organic Chemistry III (B) SP09103 96 78.3% 94.6% 9.06 B (3.12) B- (2.70)
Tor, Yitzhak CHEM 140CH - Honors Organic Chemistry (A) SP0952 37 100.0% 100.0% 6.01 A- (3.79) B+ (3.66)
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (A) SP09390 160 86.1% 92.7% 6.53 B+ (3.36) B (3.01)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) SP0997 94 93.4% 93.5% 6.37 B (3.14) B (3.23)
Yang, Jerry CHEM 156 - Struct&Properties/Organc Molec (A) SP0939 28 92.6% 89.3% 5.71 B (3.27) B+ (3.36)
Burkart, Michael D CHEM 157 - Natural Products Chemistry (A) SP0946 58 88.7% 92.3% 5.07 B+ (3.35) B (3.05)
Prather, Kimberly A CHEM 173 - Atmospheric Chemistry (A) SP0948 40 85.0% 97.5% 4.55 B (3.19) C+ (2.38)
Dickson, Andrew Gilmore CHEM 174 - Chem Prin of Marine Systems (A) SP0938 25 72.0% 84.0% 3.75 B (3.10) B- (2.87)
Czworkowski, John CHEM 188 - Capstone Sem in Science Eductn (A) SP0912 12 91.7% 100.0% 4.33 B+ (3.45) N/A
Tezcan, Faik CHEM 6A - General Chemistry I (A) SP09251 142 85.1% 90.8% 5.37 B (3.16) C (2.19)
Hoeger, Carl CHEM 6B - General Chemistry II (A) SP09167 94 92.3% 98.9% 6.59 B- (2.85) C+ (2.64)
Johnson, Christina A CHEM 6B - General Chemistry II (B) SP09319 198 82.6% 99.0% 6.33 B (3.14) C+ (2.57)
Weinberger, Leor CHEM 6B - General Chemistry II (C) SP09184 78 90.4% 86.7% 5.27 B+ (3.49) B- (2.79)
Berniolles, Sandrine CHEM 6BL - Intr Inorganic Chem Laboratory (A) SP09236 17 52.9% 88.2% 10.38 B+ (3.35) B- (2.94)
Berniolles, Sandrine CHEM 6BL - Intr Inorganic Chem Laboratory (B) SP09242 56 51.9% 94.3% 9.25 B+ (3.35) B- (2.94)
Kubiak, Clifford Paul CHEM 6C - General Chemistry III (A) SP09196 134 94.6% 96.2% 4.96 B (3.25) B- (2.87)
Brydges, Stacey CHEM 6C - General Chemistry III (B) SP09145 96 91.5% 85.1% 6.31 B+ (3.36) B- (2.86)
Ghosh, Partho CHEM 6C - General Chemistry III (C) SP09291 100 83.8% 76.8% 5.16 B (3.09) C+ (2.49)
Johnson, Christina A CHEM 6C - General Chemistry III (D) SP09346 245 86.7% 98.8% 6.47 B+ (3.37) B- (2.85)
Hoeger, Carl CHEM 6CH - Honors General Chemistry III (A) SP0964 55 94.5% 100.0% 4.61 B+ (3.66) B+ (3.37)
Weizman, Haim CHEM 87 - Freshman Seminar (A) SP0914 14 85.7% 85.7% 0.64 A (4.00) N/A
Brydges, Stacey CHEM 87 - Freshman Seminar (B) SP0918 18 100.0% 100.0% 0.50 N/A N/A
Printz, Morton P. CHEM 92 - Undergrad Pharmacology Seminar (A) SP09166 89 100.0% 97.6% 0.84 A- (3.92) N/A
Czworkowski, John CHEM 96 - Introductn to Teaching Science (A) SP0913 12 100.0% 100.0% 3.00 B+ (3.55) N/A
Feng, Da Fei CHEM 100A - Analytical Chem Lab (A) WI0965 62 78.0% 81.7% 7.91 B+ (3.53) B- (2.90)
Kim, Judy E. CHEM 105A - Physical Chemistry Laboratory (A) WI0941 30 72.4% 96.6% 9.12 B (3.30) B- (2.76)
Crowley, Thomas E. CHEM 108 - Molecular Biochemistry Lab (A) WI0928 15 78.6% 78.6% 8.23 B+ (3.57) B+ (3.45)
Crowley, Thomas E. CHEM 108 - Molecular Biochemistry Lab (B) WI0930 24 95.7% 78.3% 6.92 B+ (3.38) B+ (3.45)
Crowley, Thomas E. CHEM 112A - Molecular Biochemistry Lab (A) WI0928 15 78.6% 78.6% 8.23 B+ (3.57) B+ (3.45)
Crowley, Thomas E. CHEM 112A - Molecular Biochemistry Lab (B) WI0930 24 95.7% 78.3% 6.92 B+ (3.38) B+ (3.45)
Opella, Stanley J CHEM 114A - Biochemical Structure&Function (A) WI0989 49 95.9% 100.0% 4.54 B+ (3.65) B- (2.78)
Wang, Wei CHEM 114B - Biochem Energetics&Metabolism (A) WI09217 87 60.9% 41.4% 7.36 B (3.19) C+ (2.50)
Nakagawa, Terunaga CHEM 12 - Molecules and Reactions (A) WI09164 34 58.8% 47.1% 4.00 B+ (3.35) B+ (3.30)
Hendrickson, David N CHEM 120B - Inorganic Chemistry II (A) WI0979 20 85.0% 90.0% 3.40 A- (3.70) B+ (3.32)
Tauber, Michael CHEM 127 - Physical Chemistry (A) WI09156 125 71.2% 87.2% 5.56 B (3.07) C+ (2.51)
Lindenberg, Katja CHEM 132 - Physical Chemistry (A) WI09103 61 54.2% 69.5% 7.25 B (3.00) C+ (2.51)
Yang, Jerry CHEM 140A - Organic Chemistry I (A) WI09368 257 84.3% 93.5% 7.39 B (3.14) C+ (2.64)
Gianneschi, Nathan CHEM 140A - Organic Chemistry I (B) WI09330 231 84.4% 86.8% 7.60 B (3.00) C+ (2.58)
Burkart, Michael D CHEM 140B - Organic Chemistry II (A) WI09308 258 79.0% 94.0% 7.01 B (3.28) B- (2.80)
Theodorakis, Emmanouil CHEM 140B - Organic Chemistry II (B) WI09273 140 76.6% 93.4% 6.73 B (3.13) C+ (2.65)
Whitesell, James K. CHEM 140B - Organic Chemistry II (C) WI09210 74 74.0% 59.7% 6.20 B+ (3.36) C+ (2.34)
Weizman, Haim CHEM 140BH - Honors Organic Chemistry (A) WI0941 38 100.0% 97.4% 6.66 B+ (3.68) A- (3.79)
Albizati, Kim F. CHEM 140C - Organic Chemistry III (A) WI09259 134 91.7% 100.0% 6.16 B+ (3.38) C+ (2.68)
Ternansky, Robert J. CHEM 143A - Organic Chemistry Laboratory (A) WI09359 268 70.2% 68.2% 6.40 B (3.06) B (3.09)
Weizman, Haim CHEM 143AH - Honors Organic Chemistry Lab (A) WI0940 22 81.8% 90.9% 9.41 B+ (3.48) B (3.21)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) WI0974 72 76.1% 79.1% 7.34 B- (2.97) B (3.14)
Pomeroy, Robert S. CHEM 149B - Environmental Chemistry (A) WI0934 26 92.3% 92.3% 5.96 B+ (3.35) B (3.01)
Glazer, Edith C CHEM 15 - Chemistry of the Universe (A) WI0949 42 76.2% 73.8% 2.69 B+ (3.38) B+ (3.39)
Nicolaou, Kyriacos C CHEM 151 - Molecules That Changed World (A) WI0997 57 100.0% 100.0% 3.55 A- (3.79) B+ (3.43)
Baker, Timothy Stanley CHEM 165 - 3D Elctron Microscopy/Macromol (A) WI0910 10 100.0% 100.0% 4.10 B+ (3.60) N/A
Pomeroy, Robert S. CHEM 172 - Environmental Chemistry (A) WI0934 26 92.3% 92.3% 5.96 B+ (3.35) B (3.01)
Czworkowski, John CHEM 187 - Foundn of Teach&Learn Science (A) WI099 9 100.0% 100.0% 3.75 A- (3.78) N/A
Newsam, John CHEM 192 - Sr Seminar in Chem & Biochem (A) WI0911 12 100.0% 100.0% 1.33 A (4.00) N/A
Sailor, Michael Joseph CHEM 192 - Sr Seminar in Chem & Biochem (A) WI0911 12 100.0% 100.0% 1.33 A (4.00) N/A
Sinha, Amitabha CHEM 6A - General Chemistry I (A) WI09312 103 76.3% 58.6% 6.34 B- (2.95) C+ (2.53)
Hoeger, Carl CHEM 6A - General Chemistry I (B) WI09325 238 89.3% 93.1% 6.02 B- (2.90) C+ (2.67)
Crowell, John E CHEM 6B - General Chemistry II (A) WI09304 80 78.5% 67.1% 7.18 B (3.09) C+ (2.53)
Kummel, Andrew C CHEM 6B - General Chemistry II (B) WI09295 125 82.3% 91.9% 6.45 B (3.09) C+ (2.68)
Muller, Ulrich K. CHEM 6B - General Chemistry II (C) WI09103 86 90.0% 77.8% 5.10 B (3.29) C+ (2.54)
brydges, stacey CHEM 6B - General Chemistry II (D) WI09260 192 65.4% 63.4% 6.91 B- (2.83) C+ (2.57)
Johnson, Christina A CHEM 6B - General Chemistry II (E) WI09322 243 86.0% 97.9% 6.81 B (3.22) B- (2.76)
Weare, John H. CHEM 6BH - Honors General Chemistry II (A) WI0988 60 53.4% 56.7% 7.17 B (3.19) B+ (3.50)
Berniolles, Sandrine CHEM 6BL - Intr Inorganic Chem Laboratory (A) WI09226 27 63.0% 88.9% 8.65 B+ (3.35) B- (2.95)
Berniolles, Sandrine CHEM 6BL - Intr Inorganic Chem Laboratory (B) WI09240 81 65.0% 90.0% 7.56 B (3.23) B- (2.95)
Hoeger, Carl CHEM 6C - General Chemistry III (A) WI09184 134 88.4% 93.8% 5.37 B (3.20) B- (2.77)
Czworkowski, John CHEM 87 - Freshman Seminar (B) WI098 6 100.0% 100.0% 1.17 N/A N/A
Czworkowski, John CHEM 96 - Introductn to Teaching Science (A) WI0918 16 100.0% 93.3% 2.88 B+ (3.57) N/A
Feng, Da Fei CHEM 100A - Analytical Chem Lab (A) FA08100 83 77.8% 78.8% 8.74 B+ (3.36) B (3.19)
stuart, christina CHEM 105A - Physical Chemistry Laboratory (A) FA0838 30 93.1% 96.6% 7.95 B (3.26) B- (2.88)
Crowley, Thomas E. CHEM 108 - Molecular Biochemistry Lab (A) FA0814 11 100.0% 81.8% 6.32 A- (3.73) N/A
Jennings, Patricia A. CHEM 108 - Molecular Biochemistry Lab (A) FA0814 11 100.0% 90.9% 6.32 A- (3.73) N/A
Crowley, Thomas E. CHEM 108 - Molecular Biochemistry Lab (B) FA0826 16 81.3% 87.5% 6.75 B+ (3.60) B+ (3.39)
Jennings, Patricia A. CHEM 108 - Molecular Biochemistry Lab (B) FA0826 16 84.6% 100.0% 6.88 B+ (3.60) B+ (3.39)
Crowley, Thomas E. CHEM 11 - The Periodic Table (A) FA08169 75 73.6% 49.3% 2.36 B+ (3.51) B+ (3.31)
Pomeroy, Robert S. CHEM 11 - The Periodic Table (B) FA08181 112 82.7% 91.8% 3.85 B+ (3.30) C+ (2.66)
Crowley, Thomas E. CHEM 112A - Molecular Biochemistry Lab (A) FA0814 11 100.0% 81.8% 6.32 A- (3.73) N/A
Jennings, Patricia A. CHEM 112A - Molecular Biochemistry Lab (A) FA0814 11 100.0% 90.9% 6.32 A- (3.73) N/A
Crowley, Thomas E. CHEM 112A - Molecular Biochemistry Lab (B) FA0826 16 81.3% 87.5% 6.75 B+ (3.60) B+ (3.39)
Jennings, Patricia A. CHEM 112A - Molecular Biochemistry Lab (B) FA0826 16 84.6% 100.0% 6.88 B+ (3.60) B+ (3.39)
Viadiu, Hector CHEM 114A - Biochemical Structure&Function (A) FA08223 140 87.1% 89.9% 5.87 B+ (3.47) B (3.03)
Dorrestein, Pieter CHEM 116 - Enzyme Catalyzed Reactions (A) FA0836 25 69.6% 78.3% 5.22 B+ (3.60) B (3.28)
Komives, Elizabeth A CHEM 116 - Enzyme Catalyzed Reactions (A) FA0836 22 63.6% 86.4% 4.60 B+ (3.60) B (3.28)
Hendrickson, David N CHEM 120A - Inorganic Chemistry I (A) FA08228 90 83.0% 92.0% 4.32 B+ (3.58) B (3.16)
Crowell, John E CHEM 126 - Physical Chemistry (A) FA08130 79 70.5% 91.0% 5.97 B (3.14) C+ (2.59)
Crowell, John E CHEM 126 - Physical Chemistry (B) FA0835 13 38.5% 84.6% 6.81 B (3.23) C+ (2.59)
Lindenberg, Katja CHEM 131 - Physical Chemistry (A) FA08120 50 55.1% 79.6% 8.38 B- (2.96) C+ (2.40)
Ternansky, Robert J. CHEM 140A - Organic Chemistry I (A) FA08201 217 79.5% 91.2% 10.14 B (3.00) B- (2.71)
Whitesell, James K. CHEM 140A - Organic Chemistry I (B) FA08270 84 73.5% 48.8% 6.57 B+ (3.41) C+ (2.44)
Glazer, Edith C CHEM 140A - Organic Chemistry I (C) FA08236 184 80.1% 82.3% 8.70 B- (2.98) C+ (2.49)
Albizati, Kim F. CHEM 140A - Organic Chemistry I (D) FA08201 150 91.3% 99.3% 5.86 B+ (3.37) B- (2.72)
Kobayashi, Yoshihisa CHEM 140B - Organic Chemistry II (A) FA08262 79 76.6% 40.3% 6.63 B (3.22) C+ (2.55)
Hermann, Thomas CHEM 140C - Organic Chemistry III (A) FA08297 205 75.9% 82.2% 6.28 B (3.25) C+ (2.68)
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (A) FA08437 197 88.9% 96.8% 6.55 B+ (3.41) B- (2.95)
Ternansky, Robert J. CHEM 143C - Organic Chemistry Laboratory (A) FA08109 98 87.6% 90.7% 7.41 B (3.25) B (3.29)
Prather, Kimberly A CHEM 149A - Environmental Chemistry (A) FA0860 45 97.7% 95.5% 4.94 B+ (3.42) C+ (2.51)
Kobayashi, Yoshihisa CHEM 152 - Synthetic Methods/Organic Chem (A) FA0817 19 84.2% 84.2% 5.61 B+ (3.37) N/A
Theodorakis, Emmanouil CHEM 152 - Synthetic Methods/Organic Chem (A) FA0817 19 84.2% 84.2% 5.61 B+ (3.37) N/A
Tor, Yitzhak CHEM 154 - Mechanisms/Organic Reactions (A) FA0836 40 92.5% 95.0% 6.05 B+ (3.37) B+ (3.53)
Prather, Kimberly A CHEM 171 - Environmental Chemistry (A) FA0860 45 97.7% 95.5% 4.94 B+ (3.42) C+ (2.51)
Weizman, Haim CHEM 192 - Sr Seminar in Chem & Biochem (A) FA0818 13 100.0% 100.0% 1.12 N/A N/A
Hoeger, Carl CHEM 4 - Basic Chemistry (A) FA08238 183 96.1% 98.9% 5.76 B- (2.98) B- (2.89)
brydges, stacey CHEM 6A - General Chemistry I (A) FA08323 247 86.9% 76.6% 6.97 B- (2.84) C+ (2.49)
Czworkowski, John CHEM 6A - General Chemistry I (B) FA08327 273 81.8% 59.0% 6.15 B (3.15) C+ (2.54)
Czworkowski, John CHEM 6A - General Chemistry I (C) FA08298 221 75.5% 61.8% 6.27 B (3.08) C+ (2.54)
Johnson, Christina A CHEM 6A - General Chemistry I (D) FA08336 214 91.3% 98.6% 6.22 B (3.15) B- (2.85)
brydges, stacey CHEM 6A - General Chemistry I (E) FA08316 253 81.2% 73.2% 6.06 B- (2.99) C+ (2.49)
Hoeger, Carl CHEM 6AH - Honors General Chemistry I (A) FA08117 97 75.3% 94.6% 6.40 B (3.10) B (3.07)
Kim, Judy E. CHEM 6B - General Chemistry II (A) FA08239 162 62.9% 37.7% 7.55 B- (2.89) C+ (2.63)
Berniolles, Sandrine CHEM 6BL - Intr Inorganic Chem Laboratory (A) FA08245 29 72.4% 86.2% 9.19 B (3.29) B- (2.99)
Berniolles, Sandrine CHEM 6BL - Intr Inorganic Chem Laboratory (B) FA08248 86 59.8% 86.6% 10.59 B (3.18) B- (2.99)
Johnson, Christina A CHEM 6C - General Chemistry III (A) FA08340 293 90.9% 98.6% 5.66 B (3.23) B- (2.86)
Trogler, William C CHEM 6C - General Chemistry III (B) FA08120 41 80.0% 85.0% 4.55 B (3.13) B- (2.82)
Czworkowski, John CHEM 87 - Freshman Seminar (B) FA0816 18 88.9% 94.4% 0.83 A (4.00) N/A
Ball, Ian James CHEM 100A - Analytical Chem Lab (A) SU0819 16 50.0% 56.3% 12.50 B (3.07) N/A
Oconnor, Joseph M. CHEM 140A - Organic Chemistry I (A) SU08167 110 85.5% 99.1% 10.54 B+ (3.48) N/A
Ternansky, Robert J. CHEM 140A - Organic Chemistry I (A) SU0852 36 80.6% 97.2% 15.28 B- (2.82) N/A
Oconnor, Joseph M. CHEM 140B - Organic Chemistry II (A) SU08278 179 83.6% 96.6% 10.26 B (3.17) N/A
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (A) SU0878 68 92.4% 93.8% 10.96 B (3.26) N/A
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) SU0820 19 100.0% 94.7% 7.97 B- (2.89) N/A
Hoeger, Carl CHEM 6A - General Chemistry I (A) SU0866 35 91.4% 97.1% 9.15 B (3.29) N/A
Pomeroy, Robert S. CHEM 6A - General Chemistry I (A) SU0821 12 100.0% 91.7% 7.17 B+ (3.36) N/A
Ball, Ian James CHEM 6B - General Chemistry II (A) SU0856 44 82.5% 95.0% 8.74 B- (2.98) N/A
Pomeroy, Robert S. CHEM 6B - General Chemistry II (A) SU0845 38 84.2% 76.3% 8.82 B- (2.86) N/A
Berniolles, Sandrine CHEM 6BL - Intr Inorganic Chem Laboratory (A) SU08124 63 74.6% 90.5% 11.60 B+ (3.31) N/A
Hoeger, Carl CHEM 6C - General Chemistry III (A) SU0896 58 89.5% 98.2% 8.74 B+ (3.40) N/A
Johnson, Christina A CHEM 6C - General Chemistry III (A) SU0892 77 85.5% 94.7% 7.10 B (3.30) N/A
Feng, Da Fei CHEM 100A - Analytical Chem Lab (A) SP0885 72 71.4% 84.3% 10.28 B+ (3.51) B- (2.98)
Magde, Douglas CHEM 105A - Physical Chemistry Laboratory (A) SP0856 34 78.1% 96.9% 9.11 B (3.29) B (3.00)
Crowley, Thomas E. CHEM 109 - Molecular Biochemistry Lab (A) SP0829 19 88.9% 83.3% 8.61 B+ (3.33) B+ (3.38)
Crowley, Thomas E. CHEM 109 - Molecular Biochemistry Lab (B) SP0824 19 73.7% 36.8% 8.94 B- (2.79) B+ (3.38)
Crowley, Thomas E. CHEM 112B - Molecular Biochemistry Lab (A) SP0829 19 88.9% 83.3% 8.61 B+ (3.33) B+ (3.38)
Crowley, Thomas E. CHEM 112B - Molecular Biochemistry Lab (B) SP0824 19 73.7% 36.8% 8.94 B- (2.79) B+ (3.38)
Hoffmann, Alexander CHEM 114C - Biosynthesis of Macromolecules (A) SP08180 44 86.0% 95.3% 5.64 B+ (3.38) B- (2.72)
Dorrestein, Pieter CHEM 116 - Enzyme Catalyzed Reactions (A) SP0853 29 92.9% 82.1% 6.71 B+ (3.39) B (3.10)
Komives, Elizabeth A CHEM 116 - Enzyme Catalyzed Reactions (A) SP0853 33 87.5% 100.0% 6.44 B+ (3.39) B (3.10)
Tukey, Robert H CHEM 118 - Pharmacology and Toxicology (A) SP08108 72 93.1% 93.1% 5.53 B+ (3.34) B (3.09)
Cohen, Seth M CHEM 124 - Bioinorganic Chemistry (A) SP0839 34 69.7% 93.9% 5.62 B (3.03) B- (2.81)
Tezcan, Faik CHEM 124 - Bioinorganic Chemistry (A) SP0839 34 69.7% 93.9% 5.62 B (3.03) B- (2.81)
Cohen, Seth M CHEM 125 - Bioinorganic Chemistry (A) SP0839 34 69.7% 93.9% 5.62 B (3.03) B- (2.81)
Tezcan, Faik CHEM 125 - Bioinorganic Chemistry (A) SP0839 34 69.7% 93.9% 5.62 B (3.03) B- (2.81)
Joseph, Simpson CHEM 13 - Chemistry of Life (A) SP08173 87 83.5% 91.8% 3.27 B+ (3.55) B- (2.88)
Sinha, Amitabha CHEM 133 - Physical Chemistry (A) SP0870 42 70.7% 90.0% 8.55 B (3.03) C+ (2.34)
Ternansky, Robert J. CHEM 140A - Organic Chemistry I (A) SP08286 220 82.1% 88.7% 8.01 B (3.02) C+ (2.69)
Nefzi, Adel CHEM 140B - Organic Chemistry II (A) SP08307 179 81.4% 93.8% 6.01 B (3.08) C+ (2.50)
La Clair, James J. CHEM 140B - Organic Chemistry II (B) SP08266 134 78.5% 77.5% 5.56 A- (3.71) B+ (3.47)
Finn, Michael CHEM 140C - Organic Chemistry III (A) SP08194 142 83.0% 88.7% 6.99 B+ (3.44) B (3.10)
Nefzi, Adel CHEM 140C - Organic Chemistry III (B) SP08341 255 84.8% 88.8% 6.94 B+ (3.33) B- (2.88)
Tor, Yitzhak CHEM 140CH - Honors Organic Chemistry (A) SP0834 30 96.7% 100.0% 6.63 B+ (3.67) A- (3.79)
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (A) SP08384 163 90.4% 95.5% 6.30 B+ (3.41) B (3.01)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) SP0897 80 89.3% 93.2% 5.77 B (3.18) B (3.27)
Burkart, Michael D CHEM 157 - Natural Products Chemistry (A) SP0823 28 85.7% 89.3% 4.29 B+ (3.42) B+ (3.43)
Russell, Lynn M. CHEM 173 - Atmospheric Chemistry (A) SP0868 54 92.6% 92.6% 3.91 B+ (3.50) B+ (3.47)
Czworkowski, John CHEM 188 - Capstone Sem in Science Eductn (A) SP088 8 87.5% 100.0% 4.25 B+ (3.38) N/A
Tezcan, Faik CHEM 6A - General Chemistry I (A) SP08179 106 90.4% 95.2% 4.90 B (3.14) C (2.30)
Hoeger, Carl CHEM 6B - General Chemistry II (A) SP08316 217 82.9% 95.7% 6.08 B (3.08) B- (2.82)
Dipasquale, Antonio CHEM 6B - General Chemistry II (B) SP08263 183 86.6% 87.1% 4.77 B (3.14) B- (2.78)
Berniolles, Sandrine CHEM 6BL - Intr Inorganic Chem Laboratory (A) SP08224 61 55.0% 95.0% 9.45 B+ (3.42) B- (2.95)
Berniolles, Sandrine CHEM 6BL - Intr Inorganic Chem Laboratory (B) SP08241 56 63.5% 96.2% 9.05 B+ (3.40) B- (2.95)
Trogler, William C CHEM 6C - General Chemistry III (A) SP08285 77 75.0% 63.2% 6.45 B (3.26) C+ (2.67)
Dipasquale, Antonio CHEM 6C - General Chemistry III (B) SP08351 205 76.6% 72.5% 4.68 B (3.17) B- (2.80)
Hoeger, Carl CHEM 6C - General Chemistry III (C) SP08329 187 85.7% 95.1% 5.84 B (3.23) B (3.01)
Cohen, Seth M CHEM 6CH - Honors General Chemistry III (A) SP08119 100 97.0% 98.0% 4.72 B+ (3.56) B- (2.80)
Cohen, Seth M CHEM 87 - Freshman Seminar (A) SP0819 14 100.0% 100.0% 2.07 A (4.00) N/A
Weizman, Haim CHEM 87 - Freshman Seminar (B) SP0814 13 100.0% 100.0% 0.65 N/A N/A
Tukey, Robert H CHEM 92 - Undergrad Pharmacology Seminar (A) SP08171 119 97.4% 97.4% 0.95 A (4.00) N/A
Czworkowski, John CHEM 96 - Introductn to Teaching Science (A) SP089 9 88.9% 100.0% 2.06 A (4.00) N/A
Feng, Da Fei CHEM 100A - Analytical Chem Lab (A) WI0870 66 59.7% 71.0% 10.02 B+ (3.31) B (3.20)
Pomeroy, Robert S. CHEM 100B - Fundamentls/Instrumentl Analys (A) WI0814 11 90.9% 81.8% 5.95 B+ (3.30) N/A
Tauber, Michael CHEM 105A - Physical Chemistry Laboratory (A) WI0838 28 60.7% 92.9% 9.64 B (3.14) B- (2.96)
Crowley, Thomas E. CHEM 108 - Molecular Biochemistry Lab (A) WI0822 22 80.0% 85.0% 6.86 B+ (3.33) B+ (3.31)
Crowley, Thomas E. CHEM 112A - Molecular Biochemistry Lab (A) WI0822 22 80.0% 85.0% 6.86 B+ (3.33) B+ (3.31)
Viadiu, Hector CHEM 114A - Biochemical Structure&Function (A) WI0887 43 88.4% 76.7% 6.07 B+ (3.43) B- (2.95)
Wang, Wei CHEM 114B - Biochem Energetics&Metabolism (A) WI08195 61 78.3% 50.0% 6.70 B+ (3.36) C+ (2.49)
Nakagawa, Terunaga CHEM 12 - Molecules and Reactions (A) WI08154 115 39.8% 32.1% 3.92 B- (2.99) B- (2.78)
Rheingold, Arnold L CHEM 120B - Inorganic Chemistry II (A) WI0848 35 77.1% 84.4% 5.70 B (3.03) B (3.28)
Magde, Douglas CHEM 127 - Physical Chemistry (A) WI08186 90 61.8% 79.8% 6.43 B (3.26) B- (2.89)
Lindenberg, Katja CHEM 132 - Physical Chemistry (A) WI08109 75 75.7% 86.5% 8.31 B (3.17) C+ (2.44)
Whitesell, James K. CHEM 140A - Organic Chemistry I (A) WI08377 118 81.8% 71.6% 5.65 B+ (3.46) C+ (2.56)
Oconnor, Joseph M. CHEM 140A - Organic Chemistry I (B) WI08360 199 89.2% 98.5% 6.23 B (3.25) C+ (2.52)
Nefzi, Adel CHEM 140B - Organic Chemistry II (A) WI08338 294 82.5% 95.3% 6.82 B (3.20) C+ (2.60)
Oconnor, Joseph M. CHEM 140B - Organic Chemistry II (B) WI08301 192 78.0% 96.3% 7.01 B (3.20) C+ (2.65)
Burkart, Michael D CHEM 140B - Organic Chemistry II (C) WI08137 104 84.8% 94.9% 6.44 B+ (3.44) B- (2.89)
Weizman, Haim CHEM 140BH - Honors Organic Chemistry (A) WI0824 24 100.0% 100.0% 8.00 A- (3.82) A- (3.89)
Nefzi, Adel CHEM 140C - Organic Chemistry III (A) WI08206 129 83.1% 95.2% 7.04 B (3.18) C+ (2.47)
Ternansky, Robert J. CHEM 143A - Organic Chemistry Laboratory (A) WI08309 235 78.2% 84.4% 5.21 B (3.28) B (3.11)
Weizman, Haim CHEM 143AH - Honors Organic Chemistry Lab (A) WI0840 25 76.0% 100.0% 10.34 B+ (3.46) B+ (3.44)
Ternansky, Robert J. CHEM 143B - Organic Chemistry Laboratory (A) WI08100 100 83.8% 91.9% 5.55 B (3.16) B (3.22)
Pomeroy, Robert S. CHEM 149B - Environmental Chemistry (A) WI0841 25 88.0% 88.0% 4.74 B (3.14) B- (2.88)
Glazer, Edith C CHEM 15 - Chemistry of the Universe (A) WI0855 43 86.0% 88.4% 3.06 B+ (3.56) B+ (3.33)
Perrin, Charles L. CHEM 156 - Struct&Properties/Organc Molec (A) WI0821 18 61.1% 77.8% 5.21 B (3.00) B- (2.97)
Tukey, Robert H CHEM 166 - Environmntl&Moleculr Toxicolgy (A) WI0824 22 100.0% 100.0% 5.05 A- (3.91) A- (3.71)
Pomeroy, Robert S. CHEM 172 - Environmental Chemistry (A) WI0841 25 88.0% 88.0% 4.74 B (3.14) B- (2.88)
Czworkowski, John CHEM 187 - Foundn of Teach&Learn Science (A) WI0810 10 100.0% 100.0% 3.70 A- (3.89) N/A
Winn, Darby Lee CHEM 6A - General Chemistry I (A) WI08316 183 85.0% 81.7% 5.80 B (3.03) C+ (2.56)
Hoeger, Carl CHEM 6A - General Chemistry I (B) WI08307 184 89.4% 97.8% 6.45 B- (2.99) B- (2.78)
Muller, Ulrich K. CHEM 6B - General Chemistry II (A) WI08120 85 74.1% 51.8% 5.90 B (3.04) C+ (2.60)
Dipasquale, Antonio CHEM 6B - General Chemistry II (B) WI08230 164 90.3% 94.2% 5.22 B (3.07) B- (2.74)
Crowell, John E CHEM 6B - General Chemistry II (C) WI08339 229 84.2% 78.6% 6.11 B (3.12) B- (2.77)
Crowell, John E CHEM 6B - General Chemistry II (D) WI08336 229 79.4% 77.5% 5.95 B (3.06) B- (2.77)
Kummel, Andrew C CHEM 6B - General Chemistry II (E) WI08288 184 81.0% 91.4% 6.55 B (3.07) C+ (2.60)
Hoeger, Carl CHEM 6BH - Honors General Chemistry II (A) WI08143 97 88.4% 95.7% 6.27 B+ (3.44) B (3.18)
Berniolles, Sandrine CHEM 6BL - Intr Inorganic Chem Laboratory (A) WI08179 38 61.1% 91.9% 9.85 B+ (3.34) B- (2.99)
Berniolles, Sandrine CHEM 6BL - Intr Inorganic Chem Laboratory (B) WI08223 65 66.1% 95.2% 8.25 B+ (3.42) B- (2.99)
Dipasquale, Antonio CHEM 6C - General Chemistry III (A) WI08276 153 83.4% 76.7% 4.46 B (3.20) C+ (2.65)
Czworkowski, John CHEM 87 - Freshman Seminar (B) WI088 6 100.0% 100.0% 0.83 N/A N/A
Czworkowski, John CHEM 96 - Introductn to Teaching Science (A) WI0811 11 100.0% 100.0% 3.05 A (4.00) N/A
Feng, Da Fei CHEM 100A - Analytical Chem Lab (A) FA0783 81 53.2% 65.8% 11.28 B (3.23) B (3.13)
Kim, Judy E. CHEM 105A - Physical Chemistry Laboratory (A) FA0736 27 84.6% 92.6% 9.46 B (3.12) B- (2.82)
Crowley, Thomas E. CHEM 108 - Molecular Biochemistry Lab (A) FA0731 23 87.0% 91.3% 5.89 B+ (3.55) B+ (3.50)
Dipasquale, Antonio CHEM 11 - The Periodic Table (A) FA07102 61 93.4% 95.1% 3.58 B+ (3.43) B+ (3.34)
Donoghue, Daniel J. CHEM 11 - The Periodic Table (B) FA07307 164 96.2% 99.4% 3.44 B+ (3.65) B (3.28)
Crowley, Thomas E. CHEM 112A - Molecular Biochemistry Lab (A) FA0731 23 87.0% 91.3% 5.89 B+ (3.55) B+ (3.50)
Ghosh, Gourisankar CHEM 114A - Biochemical Structure&Function (A) FA07186 69 77.6% 25.4% 6.00 B+ (3.31) C+ (2.66)
Hendrickson, David N CHEM 120A - Inorganic Chemistry I (A) FA07183 72 91.3% 88.6% 5.24 A- (3.70) B (3.24)
Crowell, John E CHEM 126 - Physical Chemistry (A) FA07201 89 68.6% 91.9% 6.97 B (3.23) C+ (2.53)
Lindenberg, Katja CHEM 131 - Physical Chemistry (A) FA07125 80 76.3% 82.1% 9.13 B (3.01) C+ (2.48)
Yang, Jerry CHEM 140A - Organic Chemistry I (A) FA07350 243 82.1% 90.1% 7.33 B (3.23) C+ (2.66)
Ternansky, Robert J. CHEM 140A - Organic Chemistry I (B) FA07245 160 89.7% 94.2% 10.21 B (3.05) C+ (2.68)
Perrin, Charles L. CHEM 140A - Organic Chemistry I (C) FA07322 242 86.3% 95.3% 7.19 B+ (3.33) C+ (2.51)
Hermann, Thomas CHEM 140C - Organic Chemistry III (A) FA07249 177 86.3% 86.4% 6.28 B+ (3.33) B- (2.76)
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (A) FA07387 174 84.8% 95.8% 6.88 B+ (3.35) B- (2.98)
Ternansky, Robert J. CHEM 143C - Organic Chemistry Laboratory (A) FA07104 74 94.5% 95.9% 6.72 B+ (3.37) B+ (3.35)
Prather, Kimberly A CHEM 149A - Environmental Chemistry (A) FA0767 28 100.0% 100.0% 4.14 B+ (3.61) C (2.28)
Theodorakis, Emmanouil CHEM 152 - Synthetic Methods/Organic Chem (A) FA0721 24 78.3% 95.8% 3.98 B+ (3.54) B (3.29)
Tor, Yitzhak CHEM 154 - Mechanisms/Organic Reactions (A) FA0734 49 95.8% 100.0% 5.81 B+ (3.32) B+ (3.60)
Prather, Kimberly A CHEM 171 - Environmental Chemistry (A) FA0767 28 100.0% 100.0% 4.14 B+ (3.61) C (2.28)
Dickson, Andrew Gilmore CHEM 174 - Chem Prin of Marine Systems (A) FA0719 11 81.8% 100.0% 3.41 B+ (3.30) N/A
Sailor, Michael Joseph CHEM 192 - Sr Seminar in Chem & Biochem (A) FA0716 12 100.0% 100.0% 1.17 N/A N/A
Weizman, Haim CHEM 192 - Sr Seminar in Chem & Biochem (B) FA0716 13 100.0% 100.0% 0.50 N/A N/A
Hoeger, Carl CHEM 4 - Basic Chemistry (A) FA07243 152 94.0% 96.0% 5.12 B (3.10) B (3.06)
Pomeroy, Robert S. CHEM 6A - General Chemistry I (A) FA07330 170 83.3% 83.0% 6.17 B- (2.80) C+ (2.37)
Czworkowski, John CHEM 6A - General Chemistry I (B) FA07346 214 82.0% 60.8% 6.20 B (3.14) C+ (2.58)
Czworkowski, John CHEM 6A - General Chemistry I (C) FA07334 111 73.3% 57.0% 6.77 B- (2.93) C+ (2.58)
Johnson, Christina A CHEM 6A - General Chemistry I (D) FA07352 248 94.6% 99.6% 6.49 B+ (3.30) B (3.00)
Pomeroy, Robert S. CHEM 6A - General Chemistry I (E) FA07278 257 87.4% 78.6% 6.18 B- (2.84) C+ (2.37)
Hoeger, Carl CHEM 6AH - Honors General Chemistry I (A) FA07147 96 84.2% 97.9% 6.14 B+ (3.35) B (3.16)
Dipasquale, Antonio CHEM 6B - General Chemistry II (A) FA07314 214 91.5% 82.5% 5.05 B (3.26) C+ (2.54)
Berniolles, Sandrine CHEM 6BL - Intr Inorganic Chem Laboratory (A) FA07259 28 55.6% 96.3% 8.43 B (3.12) B (3.03)
Berniolles, Sandrine CHEM 6BL - Intr Inorganic Chem Laboratory (B) FA07221 39 58.3% 91.7% 9.92 B+ (3.33) B (3.03)
Johnson, Christina A CHEM 6C - General Chemistry III (A) FA07281 172 91.4% 96.9% 5.56 B (3.28) B (3.00)
Winn, Darby Lee CHEM 6C - General Chemistry III (B) FA07197 110 89.0% 57.3% 5.77 B (3.20) B- (2.71)
Czworkowski, John CHEM 87 - Freshman Seminar (C) FA0711 10 100.0% 100.0% 0.70 A (4.00) N/A
Ball, Ian James CHEM 100A - Analytical Chem Lab (A) SU0717 17 53.3% 100.0% 16.15 B+ (3.50) N/A
Ternansky, Robert J. CHEM 140A - Organic Chemistry I (A) SU07140 108 88.7% 94.3% 11.99 B (3.08) N/A
Nefzi, Adel CHEM 140C - Organic Chemistry III (A) SU07162 105 86.1% 94.1% 8.21 B (3.20) N/A
Weizman, Haim CHEM 143A - Organic Chemistry Laboratory (A) SU0776 49 89.4% 100.0% 11.01 B+ (3.38) N/A
Ternansky, Robert J. CHEM 4 - Basic Chemistry (A) SU076 6 100.0% 100.0% 5.50 B- (2.80) N/A
Hoeger, Carl CHEM 6A - General Chemistry I (A) SU0766 34 81.8% 93.9% 9.31 B+ (3.41) N/A
Dipasquale, Antonio CHEM 6B - General Chemistry II (A) SU07104 79 74.4% 75.3% 7.29 B (3.07) N/A
Ball, Ian James CHEM 6BL - Intr Inorganic Chem Laboratory (A) SU0783 60 50.9% 70.7% 12.50 B (3.21) N/A
Hoeger, Carl CHEM 6C - General Chemistry III (A) SU0789 54 90.4% 94.2% 9.09 B+ (3.33) N/A
Johnson, Christina A CHEM 6C - General Chemistry III (A) SU07155 136 92.5% 97.8% 7.57 B (3.20) N/A
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lY3Rpb25JZD03MzY2MDMfAAUuQ0hFTSAxNSAgIC0gQ2hlbWlzdHJ5IG9mIHRoZSBVbml2ZXJzZSAgICAgIChBKWRkAgIPDxYCHwAFBFdJMTJkZAIDDw8WAh8ABQI0NGRkAgQPZBYCAgEPDxYCHwAFAjIyZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NS41JWRkAgcPZBYCAgEPDxYCHwAFBDMuNjhkZAIID2QWBAIBDw8WAh8ABQMzLjJkZAIDDw8WAh8ABQhCICgzLjIwKWRkAgkPZBYEAgEPDxYCHwAFBTMuMjEyZGQCAw8PFgIfAAUIQiAoMy4yMSlkZAKlDA9kFhRmDw8WAh8ABSNHdWVycmVybywgQ2FybG9zIEFyaWVsICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0OTBkZAIDDw8WAh8ABQc3MzY3NzdBZGQCBQ8PFgQfBQUuLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzM2Nzc3QR8ABS9DSEVNIDE1NSAgIC0gU3ludGhlc2lzIG9mIENvbXBsZXggTW9sZWN1bGVzIChBKWRkAgIPDxYCHwAFBFdJMTJkZAIDDw8WAh8ABQIxMGRkAgQPZBYCAgEPDxYCHwAFATVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBTEwLjUwZGQCCA9kFgQCAQ8PFgIfAAUQMi42NjY2NjY2NjY2NjY2N2RkAgMPDxYCHwAFCUMrICgyLjY3KWRkAgkPZBYCAgEPDxYCHwBlZGQCpgwPZBYUZg8PFgIfAAUjVGhlb2RvcmFraXMsIEVtbWFub3VpbCAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDkwZGQCAw8PFgIfAAUGNzM2Nzc3ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzM2Nzc3HwAFL0NIRU0gMTU1ICAgLSBTeW50aGVzaXMgb2YgQ29tcGxleCBNb2xlY3VsZXMgKEEpZGQCAg8PFgIfAAUEV0kxMmRkAgMPDxYCHwAFAjEwZGQCBA9kFgICAQ8PFgIfAAUBNWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODAuMCVkZAIHD2QWAgIBDw8WAh8ABQUxMC4wMGRkAggPZBYEAgEPDxYCHwAFATNkZAIDDw8WAh8ABQhCICgzLjAwKWRkAgkPZBYCAgEPDxYCHwBlZGQCpwwPZBYUZg8PFgIfAAUjWWFuZywgSmVycnkgICAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDkwZGQCAw8PFgIfAAUGNzM2Nzc4ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzM2Nzc4HwAFL0NIRU0gMTU2ICAgLSBTdHJ1Y3QmUHJvcGVydGllcy9PcmdhbmMgTW9sZWMgKEEpZGQCAg8PFgIfAAUEV0kxMmRkAgMPDxYCHwAFAjIyZGQCBA9kFgICAQ8PFgIfAAUBOGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ny41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3NS4wJWRkAgcPZBYCAgEPDxYCHwAFBDkuMjVkZAIID2QWBAIBDw8WAh8ABQMzLjVkZAIDDw8WAh8ABQlCKyAoMy41MClkZAIJD2QWBAIBDw8WAh8ABQQzLjI3ZGQCAw8PFgIfAAUIQiAoMy4yNylkZAKoDA9kFhRmDw8WAh8ABSNWaWFkaXUsIEhlY3RvciAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0OTBkZAIDDw8WAh8ABQY3MzY3NzlkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MzY3NzkfAAUvQ0hFTSAxNjUgICAtIDNEIEVsY3Ryb24gTWljcm9zY29weS9NYWNyb21vbCAoQSlkZAICDw8WAh8ABQRXSTEyZGQCAw8PFgIfAAUCMjVkZAIED2QWAgIBDw8WAh8ABQE5ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc3LjglZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDQuOTRkZAIID2QWBAIBDw8WAh8ABRAzLjY2NjY2NjY2NjY2NjY3ZGQCAw8PFgIfAAUJQisgKDMuNjcpZGQCCQ9kFgQCAQ8PFgIfAAUFMy41MjJkZAIDDw8WAh8ABQlCKyAoMy41MilkZAKpDA9kFhRmDw8WAh8ABSNQb21lcm95LCBSb2JlcnQgUy4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0OTBkZAIDDw8WAh8ABQY3MzY3NzZkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MzY3NzYfAAUtQ0hFTSAxNzIgLSBFbnZpcm9ubWVudGFsIENoZW1pc3RyeSAgICAgICAgKEEpZGQCAg8PFgIfAAUEV0kxMmRkAgMPDxYCHwAFAjMyZGQCBA9kFgICAQ8PFgIfAAUCMjBkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDUuOTBkZAIID2QWBAIBDw8WAh8ABQQzLjQ1ZGQCAw8PFgIfAAUJQisgKDMuNDUpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4wODZkZAIDDw8WAh8ABQhCICgzLjA5KWRkAqoMD2QWFGYPDxYCHwAFI0N6d29ya293c2tpLCBKb2huICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ5MGRkAgMPDxYCHwAFBjczNjc4MWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTczNjc4MR8ABS9DSEVNIDE4NyAgIC0gRm91bmRuIG9mIFRlYWNoJkxlYXJuIFNjaWVuY2UgIChBKWRkAgIPDxYCHwAFBFdJMTJkZAIDDw8WAh8ABQIxM2RkAgQPZBYCAgEPDxYCHwAFATVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ0LjEwZGQCCA9kFgQCAQ8PFgIfAAUDMy44ZGQCAw8PFgIfAAUJQS0gKDMuODApZGQCCQ9kFgICAQ8PFgIfAGVkZAKrDA9kFhRmDw8WAh8ABSNOZXdzYW0sIEpvaG4gICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0OTBkZAIDDw8WAh8ABQY3MzY3ODJkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MzY3ODIfAAUvQ0hFTSAxOTIgICAtIFNyIFNlbWluYXIgaW4gQ2hlbSAmIEJpb2NoZW0gICAoQSlkZAICDw8WAh8ABQRXSTEyZGQCAw8PFgIfAAUBNmRkAgQPZBYCAgEPDxYCHwAFATVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDIuMTBkZAIID2QWAgIBDw8WAh8AZWRkAgkPZBYCAgEPDxYCHwBlZGQCrAwPZBYUZg8PFgIfAAUjU2luaGEsIEFtaXRhYmhhICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDkwZGQCAw8PFgIfAAUGNzM2NDcwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzM2NDcwHwAFLUNIRU0gNkEgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSSAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMTJkZAIDDw8WAh8ABQMxODZkZAIED2QWAgIBDw8WAh8ABQI4MGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3OS43JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU2My4zJWRkAgcPZBYCAgEPDxYCHwAFBDcuMDZkZAIID2QWBAIBDw8WAh8ABRAyLjY4NDkzMTUwNjg0OTMyZGQCAw8PFgIfAAUJQysgKDIuNjgpZGQCCQ9kFgQCAQ8PFgIfAAUFMi40MTFkZAIDDw8WAh8ABQlDKyAoMi40MSlkZAKtDA9kFhRmDw8WAh8ABSNKb2huc29uLCBDaHJpc3RpbmEgQSAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0OTBkZAIDDw8WAh8ABQY3MzY0ODBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MzY0ODAfAAUtQ0hFTSA2QSAgLSBHZW5lcmFsIENoZW1pc3RyeSBJICAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUEV0kxMmRkAgMPDxYCHwAFAzI5N2RkAgQPZBYCAgEPDxYCHwAFAzE0MWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4OS4xJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NC45JWRkAgcPZBYCAgEPDxYCHwAFBDguNDBkZAIID2QWBAIBDw8WAh8ABQ8zLjEwNDQ3NzYxMTk0MDNkZAIDDw8WAh8ABQhCICgzLjEwKWRkAgkPZBYEAgEPDxYCHwAFBTIuODA2ZGQCAw8PFgIfAAUJQi0gKDIuODEpZGQCrgwPZBYUZg8PFgIfAAUjVHJvZ2xlciwgV2lsbGlhbSBDICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDkwZGQCAw8PFgIfAAUGNzM2NDkwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzM2NDkwHwAFLUNIRU0gNkEgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSSAgICAgICAgICAgIChDKWRkAgIPDxYCHwAFBFdJMTJkZAIDDw8WAh8ABQMyNjdkZAIED2QWAgIBDw8WAh8ABQMxMjlkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODUuNyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODIuNCVkZAIHD2QWAgIBDw8WAh8ABQQ2Ljg4ZGQCCA9kFgQCAQ8PFgIfAAUPMy4wMjQxOTM1NDgzODcxZGQCAw8PFgIfAAUIQiAoMy4wMilkZAIJD2QWBAIBDw8WAh8ABQUyLjc5OGRkAgMPDxYCHwAFCUItICgyLjgwKWRkAq8MD2QWFGYPDxYCHwAFI011bGxlciwgVWxyaWNoIEsuICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ5MGRkAgMPDxYCHwAFBjczNjUwMGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTczNjUwMB8ABS1DSEVNIDZCICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IElJICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRXSTEyZGQCAw8PFgIfAAUDMTY2ZGQCBA9kFgICAQ8PFgIfAAUCNzdkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTQuNyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTIuMSVkZAIHD2QWAgIBDw8WAh8ABQQ1LjQ1ZGQCCA9kFgQCAQ8PFgIfAAUQMy41NTQwNTQwNTQwNTQwNWRkAgMPDxYCHwAFCUIrICgzLjU1KWRkAgkPZBYEAgEPDxYCHwAFBTIuODQ0ZGQCAw8PFgIfAAUJQi0gKDIuODQpZGQCsAwPZBYUZg8PFgIfAAUjQnJ5ZGdlcywgU3RhY2V5ICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDkwZGQCAw8PFgIfAAUGNzM2NTEwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzM2NTEwHwAFLUNIRU0gNkIgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSUkgICAgICAgICAgIChCKWRkAgIPDxYCHwAFBFdJMTJkZAIDDw8WAh8ABQMzMDZkZAIED2QWAgIBDw8WAh8ABQMxNjJkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTAuNyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTQuNCVkZAIHD2QWAgIBDw8WAh8ABQQ3LjM2ZGQCCA9kFgQCAQ8PFgIfAAUQMy4xMjY1ODIyNzg0ODEwMWRkAgMPDxYCHwAFCEIgKDMuMTMpZGQCCQ9kFgQCAQ8PFgIfAAUFMi44NTZkZAIDDw8WAh8ABQlCLSAoMi44NilkZAKxDA9kFhRmDw8WAh8ABSNDcm93ZWxsLCBKb2huIEUgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0OTBkZAIDDw8WAh8ABQY3MzY1MjBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MzY1MjAfAAUtQ0hFTSA2QiAgLSBHZW5lcmFsIENoZW1pc3RyeSBJSSAgICAgICAgICAgKEMpZGQCAg8PFgIfAAUEV0kxMmRkAgMPDxYCHwAFAzI2NmRkAgQPZBYCAgEPDxYCHwAFAzE0NmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NC4xJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU1OS4zJWRkAgcPZBYCAgEPDxYCHwAFBDguNTBkZAIID2QWBAIBDw8WAh8ABRAzLjE5ODU4MTU2MDI4MzY5ZGQCAw8PFgIfAAUIQiAoMy4yMClkZAIJD2QWBAIBDw8WAh8ABQUyLjY2MmRkAgMPDxYCHwAFCUMrICgyLjY2KWRkArIMD2QWFGYPDxYCHwAFI0Nyb3dlbGwsIEpvaG4gRSAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ5MGRkAgMPDxYCHwAFBjczNjUzMGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTczNjUzMB8ABS1DSEVNIDZCICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IElJICAgICAgICAgICAoRClkZAICDw8WAh8ABQRXSTEyZGQCAw8PFgIfAAUDMjc4ZGQCBA9kFgICAQ8PFgIfAAUDMTM4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg0LjYlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTUwLjclZGQCBw9kFgICAQ8PFgIfAAUENy40OWRkAggPZBYEAgEPDxYCHwAFEDMuMTcxNjQxNzkxMDQ0NzhkZAIDDw8WAh8ABQhCICgzLjE3KWRkAgkPZBYEAgEPDxYCHwAFBTIuNjYyZGQCAw8PFgIfAAUJQysgKDIuNjYpZGQCswwPZBYUZg8PFgIfAAUjS3VtbWVsLCBBbmRyZXcgQyAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDkwZGQCAw8PFgIfAAUGNzM2NTQwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzM2NTQwHwAFLUNIRU0gNkIgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSUkgICAgICAgICAgIChFKWRkAgIPDxYCHwAFBFdJMTJkZAIDDw8WAh8ABQMyMTBkZAIED2QWAgIBDw8WAh8ABQMxMjVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODIuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTAuOCVkZAIHD2QWAgIBDw8WAh8ABQQ4LjYxZGQCCA9kFgQCAQ8PFgIfAAUQMy4wNTA0MjAxNjgwNjcyM2RkAgMPDxYCHwAFCEIgKDMuMDUpZGQCCQ9kFgQCAQ8PFgIfAAUFMi43NTZkZAIDDw8WAh8ABQlCLSAoMi43NilkZAK0DA9kFhRmDw8WAh8ABSNIb2VnZXIsIENhcmwgICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0OTBkZAIDDw8WAh8ABQY3MzY1NTBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MzY1NTAfAAUtQ0hFTSA2QkggLSBIb25vcnMgR2VuZXJhbCBDaGVtaXN0cnkgSUkgICAgKEEpZGQCAg8PFgIfAAUEV0kxMmRkAgMPDxYCHwAFAjgwZGQCBA9kFgICAQ8PFgIfAAUCMzlkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTQuNyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUEOC40NWRkAggPZBYEAgEPDxYCHwAFEDMuODQ2MTUzODQ2MTUzODVkZAIDDw8WAh8ABQlBLSAoMy44NSlkZAIJD2QWBAIBDw8WAh8ABQUzLjA2MmRkAgMPDxYCHwAFCEIgKDMuMDYpZGQCtQwPZBYUZg8PFgIfAAUjR2hvc2gsIFBhcnRobyAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDkwZGQCAw8PFgIfAAUGNzM2NTU2ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzM2NTU2HwAFLUNIRU0gNkMgIC0gR2VuZXJhbCBDaGVtaXN0cnkgIElJSSAgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMTJkZAIDDw8WAh8ABQMyNjZkZAIED2QWAgIBDw8WAh8ABQMxMjVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODguNSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzUuNCVkZAIHD2QWAgIBDw8WAh8ABQQ2LjU4ZGQCCA9kFgQCAQ8PFgIfAAUQMy4wMjUyMTAwODQwMzM2MWRkAgMPDxYCHwAFCEIgKDMuMDMpZGQCCQ9kFgQCAQ8PFgIfAAUFMi40NDhkZAIDDw8WAh8ABQlDKyAoMi40NSlkZAK2DA9kFhRmDw8WAh8ABSNCZXJuaW9sbGVzLCBTYW5kcmluZSAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0OTBkZAIDDw8WAh8ABQY3MzY1NjZkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MzY1NjYfAAUtQ0hFTSA3TCAgLSBHZW5lcmFsIENoZW1pc3RyeSBMYWJvcmF0b3J5ICAgKEEpZGQCAg8PFgIfAAUEV0kxMmRkAgMPDxYCHwAFAzI2N2RkAgQPZBYCAgEPDxYCHwAFAzExNWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4MC45JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3NC44JWRkAgcPZBYCAgEPDxYCHwAFBDcuMjBkZAIID2QWBAIBDw8WAh8ABRAzLjM1Mzk4MjMwMDg4NDk2ZGQCAw8PFgIfAAUJQisgKDMuMzUpZGQCCQ9kFgQCAQ8PFgIfAAUFMi43MThkZAIDDw8WAh8ABQlCLSAoMi43MilkZAK3DA9kFhRmDw8WAh8ABSNCZXJuaW9sbGVzLCBTYW5kcmluZSAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0OTBkZAIDDw8WAh8ABQY3MzY1ODFkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MzY1ODEfAAUtQ0hFTSA3TCAgLSBHZW5lcmFsIENoZW1pc3RyeSBMYWJvcmF0b3J5ICAgKEIpZGQCAg8PFgIfAAUEV0kxMmRkAgMPDxYCHwAFAzI2MGRkAgQPZBYCAgEPDxYCHwAFAzEwNGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3MS4yJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3My4xJWRkAgcPZBYCAgEPDxYCHwAFBDguMDNkZAIID2QWBAIBDw8WAh8ABRAzLjQwNzc2Njk5MDI5MTI2ZGQCAw8PFgIfAAUJQisgKDMuNDEpZGQCCQ9kFgQCAQ8PFgIfAAUFMi43MThkZAIDDw8WAh8ABQlCLSAoMi43MilkZAK4DA9kFhRmDw8WAh8ABSNDendvcmtvd3NraSwgSm9obiAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0OTBkZAIDDw8WAh8ABQY3MzcyODRkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MzcyODQfAAUuQ0hFTSA4NyAgIC0gRnJlc2htYW4gU2VtaW5hciAgICAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMTJkZAIDDw8WAh8ABQIxNGRkAgQPZBYCAgEPDxYCHwAFATdkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDEuMzZkZAIID2QWAgIBDw8WAh8AZWRkAgkPZBYCAgEPDxYCHwBlZGQCuQwPZBYUZg8PFgIfAAUjQ3p3b3Jrb3dza2ksIEpvaG4gICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDkwZGQCAw8PFgIfAAUGNzM2NjA2ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzM2NjA2HwAFLkNIRU0gOTYgICAtIEludHJvZHVjdG4gdG8gVGVhY2hpbmcgU2NpZW5jZSAoQSlkZAICDw8WAh8ABQRXSTEyZGQCAw8PFgIfAAUCMTJkZAIED2QWAgIBDw8WAh8ABQE2ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQzLjUwZGQCCA9kFgQCAQ8PFgIfAAUQMy42NjY2NjY2NjY2NjY2N2RkAgMPDxYCHwAFCUIrICgzLjY3KWRkAgkPZBYCAgEPDxYCHwBlZGQCugwPZBYUZg8PFgIfAAUjUG9tZXJveSwgUm9iZXJ0IFMuICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDgwZGQCAw8PFgIfAAUGNzIzNzM4ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzIzNzM4HwAFL0NIRU0gMTAwQSAgLSBBbmFseXRpY2FsIENoZW1pc3RyeSBMYWIgICAgICAgKEEpZGQCAg8PFgIfAAUERkExMWRkAgMPDxYCHwAFAjg5ZGQCBA9kFgICAQ8PFgIfAAUCNDlkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODEuMyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODcuNSVkZAIHD2QWAgIBDw8WAh8ABQQ3LjQ4ZGQCCA9kFgQCAQ8PFgIfAAUPMy4zMjY1MzA2MTIyNDQ5ZGQCAw8PFgIfAAUJQisgKDMuMzMpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4wMTFkZAIDDw8WAh8ABQhCICgzLjAxKWRkArsMD2QWFGYPDxYCHwAFI1BvbWVyb3ksIFJvYmVydCBTLiAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ4MGRkAgMPDxYCHwAFBjcyMzc0M2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcyMzc0Mx8ABS9DSEVNIDEwMEIgIC0gRnVuZGFtZW50bHMvSW5zdHJ1bWVudGwgQW5hbHlzIChBKWRkAgIPDxYCHwAFBEZBMTFkZAIDDw8WAh8ABQIxNWRkAgQPZBYCAgEPDxYCHwAFATdkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDcuMzZkZAIID2QWBAIBDw8WAh8ABRAzLjE0Mjg1NzE0Mjg1NzE0ZGQCAw8PFgIfAAUIQiAoMy4xNClkZAIJD2QWAgIBDw8WAh8AZWRkArwMD2QWFGYPDxYCHwAFI1BvbWVyb3ksIFJvYmVydCBTLiAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ4MGRkAgMPDxYCHwAFBjcyMzc0NGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcyMzc0NB8ABS9DSEVNIDEwMEJMIC0gSW5zdHJ1bWVudGFsIEFuYWx5c2lzIExhYiAgICAgIChBKWRkAgIPDxYCHwAFBEZBMTFkZAIDDw8WAh8ABQIxM2RkAgQPZBYCAgEPDxYCHwAFAThkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBTEwLjUwZGQCCA9kFgQCAQ8PFgIfAAUFMy4xMjVkZAIDDw8WAh8ABQhCICgzLjEzKWRkAgkPZBYCAgEPDxYCHwBlZGQCvQwPZBYUZg8PFgIfAAUjVGF1YmVyLCBNaWNoYWVsICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDgwZGQCAw8PFgIfAAUGNzIzNzQ1ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzIzNzQ1HwAFL0NIRU0gMTA1QSAgLSBQaHlzaWNhbCBDaGVtaXN0cnkgTGFib3JhdG9yeSAgKEEpZGQCAg8PFgIfAAUERkExMWRkAgMPDxYCHwAFAjMyZGQCBA9kFgICAQ8PFgIfAAUCMTVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjYuNyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODYuNyVkZAIHD2QWAgIBDw8WAh8ABQUxMS44M2RkAggPZBYEAgEPDxYCHwAFEDIuOTIzMDc2OTIzMDc2OTJkZAIDDw8WAh8ABQlCLSAoMi45MilkZAIJD2QWBAIBDw8WAh8ABQUyLjY0NWRkAgMPDxYCHwAFCUMrICgyLjY1KWRkAr4MD2QWFGYPDxYCHwAFI1BpY2toYW0sIEthdGhsZWVuIE0gICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ4MGRkAgMPDxYCHwAFBjcyMzc0OGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcyMzc0OB8ABS9DSEVNIDEwOCAgIC0gUHJvdGVpbiBCaW9jaGVtaXN0cnkgTGFiICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMTFkZAIDDw8WAh8ABQIzM2RkAgQPZBYCAgEPDxYCHwAFAjE1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkzLjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkzLjMlZGQCBw9kFgICAQ8PFgIfAAUEOS4zMGRkAggPZBYEAgEPDxYCHwAFATNkZAIDDw8WAh8ABQhCICgzLjAwKWRkAgkPZBYEAgEPDxYCHwAFBTMuMDQ0ZGQCAw8PFgIfAAUIQiAoMy4wNClkZAK/DA9kFhRmDw8WAh8ABSNQaWNraGFtLCBLYXRobGVlbiBNICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0ODBkZAIDDw8WAh8ABQY3MjM3NTFkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MjM3NTEfAAUvQ0hFTSAxMDggICAtIFByb3RlaW4gQmlvY2hlbWlzdHJ5IExhYiAgICAgICAoQilkZAICDw8WAh8ABQRGQTExZGQCAw8PFgIfAAUCMzFkZAIED2QWAgIBDw8WAh8ABQIxNWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5My4zJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ5Ljk3ZGQCCA9kFgQCAQ8PFgIfAAUQMy4yNjY2NjY2NjY2NjY2N2RkAgMPDxYCHwAFCEIgKDMuMjcpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4wNDRkZAIDDw8WAh8ABQhCICgzLjA0KWRkAsAMD2QWFGYPDxYCHwAFI0JyeWRnZXMsIFN0YWNleSAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ4MGRkAgMPDxYCHwAFBjcyMzcyMmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcyMzcyMh8ABS5DSEVNIDExICAgLSBUaGUgUGVyaW9kaWMgVGFibGUgICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUERkExMWRkAgMPDxYCHwAFAzE2N2RkAgQPZBYCAgEPDxYCHwAFAjk4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgzLjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkzLjklZGQCBw9kFgICAQ8PFgIfAAUENC45M2RkAggPZBYEAgEPDxYCHwAFAzMuMmRkAgMPDxYCHwAFCEIgKDMuMjApZGQCCQ9kFgQCAQ8PFgIfAAUFMy4yMzNkZAIDDw8WAh8ABQhCICgzLjIzKWRkAsEMD2QWFGYPDxYCHwAFI0JyeWRnZXMsIFN0YWNleSAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ4MGRkAgMPDxYCHwAFBjcyMzczMGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcyMzczMB8ABS5DSEVNIDExICAgLSBUaGUgUGVyaW9kaWMgVGFibGUgICAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUERkExMWRkAgMPDxYCHwAFAzE5M2RkAgQPZBYCAgEPDxYCHwAFAzEwNWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4MC42JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5My4yJWRkAgcPZBYCAgEPDxYCHwAFBDUuODJkZAIID2QWBAIBDw8WAh8ABRAzLjE0NjA2NzQxNTczMDM0ZGQCAw8PFgIfAAUIQiAoMy4xNSlkZAIJD2QWBAIBDw8WAh8ABQUzLjIzM2RkAgMPDxYCHwAFCEIgKDMuMjMpZGQCwgwPZBYUZg8PFgIfAAUjVmlhZGl1LCBIZWN0b3IgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDgwZGQCAw8PFgIfAAUGNzIzNzU0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzIzNzU0HwAFL0NIRU0gMTE0QSAgLSBCaW9jaGVtaWNhbCBTdHJ1Y3R1cmUmRnVuY3Rpb24gKEEpZGQCAg8PFgIfAAUERkExMWRkAgMPDxYCHwAFAzI5N2RkAgQPZBYCAgEPDxYCHwAFAzE1NmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NC4yJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NS43JWRkAgcPZBYCAgEPDxYCHwAFBDYuODZkZAIID2QWBAIBDw8WAh8ABRAzLjU0OTAxOTYwNzg0MzE0ZGQCAw8PFgIfAAUJQisgKDMuNTUpZGQCCQ9kFgQCAQ8PFgIfAAUFMi45NjdkZAIDDw8WAh8ABQlCLSAoMi45NylkZALDDA9kFhRmDw8WAh8ABSNEb25vZ2h1ZSwgRGFuaWVsIEouICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0ODBkZAIDDw8WAh8ABQY3MjM3NjNkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MjM3NjMfAAUvQ0hFTSAxMTREICAtIE1vbGVjdWxhciAmIENlbGx1bGFyIEJpb2NoZW0gICAoQSlkZAICDw8WAh8ABQRGQTExZGQCAw8PFgIfAAUCMTlkZAIED2QWAgIBDw8WAh8ABQIxNGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3OC42JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ4LjM2ZGQCCA9kFgQCAQ8PFgIfAAUQMy4yMTQyODU3MTQyODU3MWRkAgMPDxYCHwAFCEIgKDMuMjEpZGQCCQ9kFgICAQ8PFgIfAGVkZALEDA9kFhRmDw8WAh8ABSNEb3JyZXN0ZWluLCBQaWV0ZXIgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0ODBkZAIDDw8WAh8ABQY3MjM3NjRkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MjM3NjQfAAUvQ0hFTSAxMTYgICAtIEVuenltZSBDYXRhbHl6ZWQgUmVhY3Rpb25zICAgICAoQSlkZAICDw8WAh8ABQRGQTExZGQCAw8PFgIfAAUCMjlkZAIED2QWAgIBDw8WAh8ABQIxNWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ni43JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ2LjYzZGQCCA9kFgQCAQ8PFgIfAAUQMy40NjY2NjY2NjY2NjY2N2RkAgMPDxYCHwAFCUIrICgzLjQ3KWRkAgkPZBYEAgEPDxYCHwAFBTMuMjk2ZGQCAw8PFgIfAAUIQiAoMy4zMClkZALFDA9kFhRmDw8WAh8ABSNLb21pdmVzLCBFbGl6YWJldGggQSAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0ODBkZAIDDw8WAh8ABQc3MjM3NjRBZGQCBQ8PFgQfBQUuLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzIzNzY0QR8ABS9DSEVNIDExNiAgIC0gRW56eW1lIENhdGFseXplZCBSZWFjdGlvbnMgICAgIChBKWRkAgIPDxYCHwAFBEZBMTFkZAIDDw8WAh8ABQIyOWRkAgQPZBYCAgEPDxYCHwAFAjE1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg2LjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkyLjklZGQCBw9kFgICAQ8PFgIfAAUENS44M2RkAggPZBYEAgEPDxYCHwAFEDMuNDY2NjY2NjY2NjY2NjdkZAIDDw8WAh8ABQlCKyAoMy40NylkZAIJD2QWBAIBDw8WAh8ABQUzLjI5NmRkAgMPDxYCHwAFCEIgKDMuMzApZGQCxgwPZBYUZg8PFgIfAAUjRmlndWVyb2EsIEpvc2h1YSAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDgwZGQCAw8PFgIfAAUGNzIzNzY1ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzIzNzY1HwAFL0NIRU0gMTIwQSAgLSBJbm9yZ2FuaWMgQ2hlbWlzdHJ5IEkgICAgICAgICAgKEEpZGQCAg8PFgIfAAUERkExMWRkAgMPDxYCHwAFAzE3NmRkAgQPZBYCAgEPDxYCHwAFAjk4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg5LjglZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgzLjclZGQCBw9kFgICAQ8PFgIfAAUEOC45MWRkAggPZBYEAgEPDxYCHwAFEDMuMTcwMjEyNzY1OTU3NDVkZAIDDw8WAh8ABQhCICgzLjE3KWRkAgkPZBYEAgEPDxYCHwAFBTIuODcyZGQCAw8PFgIfAAUJQi0gKDIuODcpZGQCxwwPZBYUZg8PFgIfAAUjS2ltLCBKdWR5IEUuICAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDgwZGQCAw8PFgIfAAUGNzIzNzc1ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzIzNzc1HwAFL0NIRU0gMTI3ICAgLSBQaHlzaWNhbCBDaGVtaXN0cnkgICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUERkExMWRkAgMPDxYCHwAFAzI0OGRkAgQPZBYCAgEPDxYCHwAFAzEyNWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NS4yJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5My40JWRkAgcPZBYCAgEPDxYCHwAFBDcuOTNkZAIID2QWBAIBDw8WAh8ABRAzLjIwNjg5NjU1MTcyNDE0ZGQCAw8PFgIfAAUIQiAoMy4yMSlkZAIJD2QWBAIBDw8WAh8ABQUyLjcwOWRkAgMPDxYCHwAFCUItICgyLjcxKWRkAsgMD2QWFGYPDxYCHwAFI0dhbHBlcmluLCBNaWNoYWVsICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ4MGRkAgMPDxYCHwAFBjcyMzc4NGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcyMzc4NB8ABS9DSEVNIDEzMyAgIC0gUGh5c2ljYWwgQ2hlbWlzdHJ5ICAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMTFkZAIDDw8WAh8ABQI2OGRkAgQPZBYCAgEPDxYCHwAFAjM0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTU3LjYlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTczLjUlZGQCBw9kFgICAQ8PFgIfAAUFMTAuMjFkZAIID2QWBAIBDw8WAh8ABRAyLjYxMjkwMzIyNTgwNjQ1ZGQCAw8PFgIfAAUJQysgKDIuNjEpZGQCCQ9kFgQCAQ8PFgIfAAUFMi42NzNkZAIDDw8WAh8ABQlDKyAoMi42NylkZALJDA9kFhRmDw8WAh8ABSNUZXJuYW5za3ksIFJvYmVydCBKLiAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0ODBkZAIDDw8WAh8ABQY3MjM3ODlkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MjM3ODkfAAUvQ0hFTSAxNDBBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTExZGQCAw8PFgIfAAUDMjE5ZGQCBA9kFgICAQ8PFgIfAAUDMTE0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgyLjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc2LjElZGQCBw9kFgICAQ8PFgIfAAUFMTEuNzlkZAIID2QWBAIBDw8WAh8ABRAyLjg1MzIxMTAwOTE3NDMxZGQCAw8PFgIfAAUJQi0gKDIuODUpZGQCCQ9kFgQCAQ8PFgIfAAUFMi42NTlkZAIDDw8WAh8ABQlDKyAoMi42NilkZALKDA9kFhRmDw8WAh8ABSNXaGl0ZXNlbGwsIEphbWVzIEsuICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0ODBkZAIDDw8WAh8ABQY3MjM4MDFkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MjM4MDEfAAUvQ0hFTSAxNDBBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQilkZAICDw8WAh8ABQRGQTExZGQCAw8PFgIfAAUDMTI3ZGQCBA9kFgICAQ8PFgIfAAUCNTNkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzMuMSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNTIuOSVkZAIHD2QWAgIBDw8WAh8ABQQ4LjA3ZGQCCA9kFgQCAQ8PFgIfAAUQMy4wMTk2MDc4NDMxMzcyNWRkAgMPDxYCHwAFCEIgKDMuMDIpZGQCCQ9kFgQCAQ8PFgIfAAUFMi4zMTlkZAIDDw8WAh8ABQlDKyAoMi4zMilkZALLDA9kFhRmDw8WAh8ABSNPY29ubm9yLCBKb3NlcGggTS4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0ODBkZAIDDw8WAh8ABQY3MjM4MTJkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MjM4MTIfAAUvQ0hFTSAxNDBBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQylkZAICDw8WAh8ABQRGQTExZGQCAw8PFgIfAAUDMzk3ZGQCBA9kFgICAQ8PFgIfAAUDMTkxZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg1LjglZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkwLjUlZGQCBw9kFgICAQ8PFgIfAAUEOS40NmRkAggPZBYEAgEPDxYCHwAFEDMuMTY4NDc4MjYwODY5NTdkZAIDDw8WAh8ABQhCICgzLjE3KWRkAgkPZBYEAgEPDxYCHwAFBTIuNjg1ZGQCAw8PFgIfAAUJQysgKDIuNjkpZGQCzAwPZBYUZg8PFgIfAAUjSG9lZ2VyLCBDYXJsICAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDgwZGQCAw8PFgIfAAUGNzIzODIzZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzIzODIzHwAFL0NIRU0gMTQwQSAgLSBPcmdhbmljIENoZW1pc3RyeSBJICAgICAgICAgICAgKEQpZGQCAg8PFgIfAAUERkExMWRkAgMPDxYCHwAFAzM3NGRkAgQPZBYCAgEPDxYCHwAFAzE5MmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ny41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ny41JWRkAgcPZBYCAgEPDxYCHwAFBDguOTRkZAIID2QWBAIBDw8WAh8ABRAzLjA2NDE3MTEyMjk5NDY1ZGQCAw8PFgIfAAUIQiAoMy4wNilkZAIJD2QWBAIBDw8WAh8ABQUyLjgwM2RkAgMPDxYCHwAFCUItICgyLjgwKWRkAs0MD2QWFGYPDxYCHwAFI1RoZW9kb3Jha2lzLCBFbW1hbm91aWwgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ4MGRkAgMPDxYCHwAFBjcyMzgzNGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcyMzgzNB8ABS9DSEVNIDE0MEIgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSUkgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMTFkZAIDDw8WAh8ABQMzMzRkZAIED2QWAgIBDw8WAh8ABQMxNThkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODcuOSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTUuNSVkZAIHD2QWAgIBDw8WAh8ABQQ3LjU0ZGQCCA9kFgQCAQ8PFgIfAAUBM2RkAgMPDxYCHwAFCEIgKDMuMDApZGQCCQ9kFgQCAQ8PFgIfAAUQMi42MjQ3Mzg2NzU5NTgxOWRkAgMPDxYCHwAFCUMrICgyLjYyKWRkAs4MD2QWFGYPDxYCHwAFI0hlcm1hbm4sIFRob21hcyAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ4MGRkAgMPDxYCHwAFBjcyMzg0NWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcyMzg0NR8ABS9DSEVNIDE0MEMgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSUlJICAgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMTFkZAIDDw8WAh8ABQMzNDhkZAIED2QWAgIBDw8WAh8ABQMxMzVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODMuNSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODUuNyVkZAIHD2QWAgIBDw8WAh8ABQQ4LjAwZGQCCA9kFgQCAQ8PFgIfAAUQMy4yNTgwNjQ1MTYxMjkwM2RkAgMPDxYCHwAFCEIgKDMuMjYpZGQCCQ9kFgQCAQ8PFgIfAAUEMi41NWRkAgMPDxYCHwAFCUMrICgyLjU1KWRkAs8MD2QWFGYPDxYCHwAFI1dlaXptYW4sIEhhaW0gICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ4MGRkAgMPDxYCHwAFBjcyMzg1NmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcyMzg1Nh8ABS9DSEVNIDE0M0EgIC0gT3JnYW5pYyBDaGVtaXN0cnkgTGFib3JhdG9yeSAgIChBKWRkAgIPDxYCHwAFBEZBMTFkZAIDDw8WAh8ABQM0NTNkZAIED2QWAgIBDw8WAh8ABQMxODRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODkuNSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTAuNiVkZAIHD2QWAgIBDw8WAh8ABQQ4LjUzZGQCCA9kFgQCAQ8PFgIfAAUQMy4zODI1MTM2NjEyMDIxOWRkAgMPDxYCHwAFCUIrICgzLjM4KWRkAgkPZBYEAgEPDxYCHwAFBTMuMDQzZGQCAw8PFgIfAAUIQiAoMy4wNClkZALQDA9kFhRmDw8WAh8ABSNUZXJuYW5za3ksIFJvYmVydCBKLiAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0ODBkZAIDDw8WAh8ABQY3MjM4NzdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MjM4NzcfAAUvQ0hFTSAxNDNDICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IExhYm9yYXRvcnkgICAoQSlkZAICDw8WAh8ABQRGQTExZGQCAw8PFgIfAAUCODJkZAIED2QWAgIBDw8WAh8ABQI0M2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MC4yJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Ny42JWRkAgcPZBYCAgEPDxYCHwAFBDcuNzlkZAIID2QWBAIBDw8WAh8ABRAzLjI4NTcxNDI4NTcxNDI5ZGQCAw8PFgIfAAUIQiAoMy4yOSlkZAIJD2QWBAIBDw8WAh8ABQUzLjM2NmRkAgMPDxYCHwAFCUIrICgzLjM3KWRkAtEMD2QWFGYPDxYCHwAFI0JlcnRyYW0sIFRpbW90aHkgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ4MGRkAgMPDxYCHwAFBjcyMzg4M2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcyMzg4Mx8ABS9DSEVNIDE0OUEgIC0gRW52aXJvbm1lbnRhbCBDaGVtaXN0cnkgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMTFkZAIDDw8WAh8ABQI3MmRkAgQPZBYCAgEPDxYCHwAFAjM2ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk0LjElZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg1LjMlZGQCBw9kFgICAQ8PFgIfAAUENi43OWRkAggPZBYEAgEPDxYCHwAFEDMuMTI5MDMyMjU4MDY0NTJkZAIDDw8WAh8ABQhCICgzLjEzKWRkAgkPZBYEAgEPDxYCHwAFBTMuMDE2ZGQCAw8PFgIfAAUIQiAoMy4wMilkZALSDA9kFhRmDw8WAh8ABSNHdWVycmVybywgQ2FybG9zIEFyaWVsICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0ODBkZAIDDw8WAh8ABQc3MjM4ODdBZGQCBQ8PFgQfBQUuLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzIzODg3QR8ABS9DSEVNIDE1MiAgIC0gU3ludGhldGljIE1ldGhvZHMvT3JnYW5pYyBDaGVtIChBKWRkAgIPDxYCHwAFBEZBMTFkZAIDDw8WAh8ABQIzMGRkAgQPZBYCAgEPDxYCHwAFAjEzZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTUzLjglZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc2LjklZGQCBw9kFgICAQ8PFgIfAAUENC44M2RkAggPZBYEAgEPDxYCHwAFEDMuMjg1NzE0Mjg1NzE0MjlkZAIDDw8WAh8ABQhCICgzLjI5KWRkAgkPZBYEAgEPDxYCHwAFATNkZAIDDw8WAh8ABQhCICgzLjAwKWRkAtMMD2QWFGYPDxYCHwAFI1RoZW9kb3Jha2lzLCBFbW1hbm91aWwgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ4MGRkAgMPDxYCHwAFBjcyMzg4N2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcyMzg4Nx8ABS9DSEVNIDE1MiAgIC0gU3ludGhldGljIE1ldGhvZHMvT3JnYW5pYyBDaGVtIChBKWRkAgIPDxYCHwAFBEZBMTFkZAIDDw8WAh8ABQIzMGRkAgQPZBYCAgEPDxYCHwAFAjExZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTYwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkwLjAlZGQCBw9kFgICAQ8PFgIfAAUEMy41MGRkAggPZBYEAgEPDxYCHwAFAzMuNGRkAgMPDxYCHwAFCUIrICgzLjQwKWRkAgkPZBYEAgEPDxYCHwAFATNkZAIDDw8WAh8ABQhCICgzLjAwKWRkAtQMD2QWFGYPDxYCHwAFI1RvciwgWWl0emhhayAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ4MGRkAgMPDxYCHwAFBjcyMzg4OGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcyMzg4OB8ABS9DSEVNIDE1NCAgIC0gTWVjaGFuaXNtcy9PcmdhbmljIFJlYWN0aW9ucyAgIChBKWRkAgIPDxYCHwAFBEZBMTFkZAIDDw8WAh8ABQI1MmRkAgQPZBYCAgEPDxYCHwAFAjI5ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ2LjUwZGQCCA9kFgQCAQ8PFgIfAAUPMy4yOTYyOTYyOTYyOTYzZGQCAw8PFgIfAAUIQiAoMy4zMClkZAIJD2QWBAIBDw8WAh8ABQUzLjMyNWRkAgMPDxYCHwAFCUIrICgzLjMzKWRkAtUMD2QWFGYPDxYCHwAFI0JlcnRyYW0sIFRpbW90aHkgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ4MGRkAgMPDxYCHwAFBjcyMzg4M2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcyMzg4Mx8ABS1DSEVNIDE3MSAtIEVudmlyb25tZW50YWwgQ2hlbWlzdHJ5ICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTExZGQCAw8PFgIfAAUCNzJkZAIED2QWAgIBDw8WAh8ABQIzNmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NC4xJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NS4zJWRkAgcPZBYCAgEPDxYCHwAFBDYuNzlkZAIID2QWBAIBDw8WAh8ABRAzLjEyOTAzMjI1ODA2NDUyZGQCAw8PFgIfAAUIQiAoMy4xMylkZAIJD2QWBAIBDw8WAh8ABQUzLjAxNmRkAgMPDxYCHwAFCEIgKDMuMDIpZGQC1gwPZBYUZg8PFgIfAAUjSG9lZ2VyLCBDYXJsICAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDgwZGQCAw8PFgIfAAUGNzIzNTkwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzIzNTkwHwAFLUNIRU0gNCAgIC0gQmFzaWMgQ2hlbWlzdHJ5ICAgICAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMTFkZAIDDw8WAh8ABQMyOTVkZAIED2QWAgIBDw8WAh8ABQMxNzVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODcuOSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODQuMyVkZAIHD2QWAgIBDw8WAh8ABQQ3LjU4ZGQCCA9kFgQCAQ8PFgIfAAUQMi44OTYzNDE0NjM0MTQ2M2RkAgMPDxYCHwAFCUItICgyLjkwKWRkAgkPZBYEAgEPDxYCHwAFBTIuODczZGQCAw8PFgIfAAUJQi0gKDIuODcpZGQC1wwPZBYUZg8PFgIfAAUjTWFnZGUsIERvdWdsYXMgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDgwZGQCAw8PFgIfAAUGNzIzNjAzZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzIzNjAzHwAFLUNIRU0gNkEgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSSAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMTFkZAIDDw8WAh8ABQMzMTRkZAIED2QWAgIBDw8WAh8ABQMxNzRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODUuNSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNDIuMiVkZAIHD2QWAgIBDw8WAh8ABQQ2Ljg1ZGQCCA9kFgQCAQ8PFgIfAAUQMy4yMzgwOTUyMzgwOTUyNGRkAgMPDxYCHwAFCEIgKDMuMjQpZGQCCQ9kFgQCAQ8PFgIfAAUFMi42NDRkZAIDDw8WAh8ABQlDKyAoMi42NClkZALYDA9kFhRmDw8WAh8ABSNDendvcmtvd3NraSwgSm9obiAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0ODBkZAIDDw8WAh8ABQY3MjM2MTRkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MjM2MTQfAAUtQ0hFTSA2QSAgLSBHZW5lcmFsIENoZW1pc3RyeSBJICAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUERkExMWRkAgMPDxYCHwAFAzMwNmRkAgQPZBYCAgEPDxYCHwAFAzE4M2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4MS44JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU2OC41JWRkAgcPZBYCAgEPDxYCHwAFBDcuNDdkZAIID2QWBAIBDw8WAh8ABQEzZGQCAw8PFgIfAAUIQiAoMy4wMClkZAIJD2QWBAIBDw8WAh8ABQUyLjU4NmRkAgMPDxYCHwAFCUMrICgyLjU5KWRkAtkMD2QWFGYPDxYCHwAFI0N6d29ya293c2tpLCBKb2huICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ4MGRkAgMPDxYCHwAFBjcyMzYyNGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcyMzYyNB8ABS1DSEVNIDZBICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQylkZAICDw8WAh8ABQRGQTExZGQCAw8PFgIfAAUDMjc3ZGQCBA9kFgICAQ8PFgIfAAUDMTU1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg2LjQlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTU1LjYlZGQCBw9kFgICAQ8PFgIfAAUENy42OWRkAggPZBYEAgEPDxYCHwAFEDIuOTg2MDEzOTg2MDEzOTlkZAIDDw8WAh8ABQlCLSAoMi45OSlkZAIJD2QWBAIBDw8WAh8ABQUyLjU4NmRkAgMPDxYCHwAFCUMrICgyLjU5KWRkAtoMD2QWFGYPDxYCHwAFI1NhaWxvciwgTWljaGFlbCBKb3NlcGggICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ4MGRkAgMPDxYCHwAFBjcyMzYzNWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcyMzYzNR8ABS1DSEVNIDZBICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoRClkZAICDw8WAh8ABQRGQTExZGQCAw8PFgIfAAUDMzI3ZGQCBA9kFgICAQ8PFgIfAAUDMTc2ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk1LjQlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkzLjclZGQCBw9kFgICAQ8PFgIfAAUENi4wOWRkAggPZBYEAgEPDxYCHwAFDzMuNjU0NzYxOTA0NzYxOWRkAgMPDxYCHwAFCUIrICgzLjY1KWRkAgkPZBYEAgEPDxYCHwAFBTMuMjU2ZGQCAw8PFgIfAAUIQiAoMy4yNilkZALbDA9kFhRmDw8WAh8ABSNDcm93ZWxsLCBKb2huIEUgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0ODBkZAIDDw8WAh8ABQY3MjM2NDVkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MjM2NDUfAAUtQ0hFTSA2QSAgLSBHZW5lcmFsIENoZW1pc3RyeSBJICAgICAgICAgICAgKEUpZGQCAg8PFgIfAAUERkExMWRkAgMPDxYCHwAFAzM3N2RkAgQPZBYCAgEPDxYCHwAFAzIyMGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Mi41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU1OS4yJWRkAgcPZBYCAgEPDxYCHwAFBDguMTlkZAIID2QWBAIBDw8WAh8ABQ8yLjg3ODA0ODc4MDQ4NzhkZAIDDw8WAh8ABQlCLSAoMi44OClkZAIJD2QWBAIBDw8WAh8ABQUyLjU3MWRkAgMPDxYCHwAFCUMrICgyLjU3KWRkAtwMD2QWFGYPDxYCHwAFI1dlYXJlLCBKb2huIEguICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ4MGRkAgMPDxYCHwAFBjcyMzY1NWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcyMzY1NR8ABS1DSEVNIDZBSCAtIEhvbm9ycyBHZW5lcmFsIENoZW1pc3RyeSBJICAgICAoQSlkZAICDw8WAh8ABQRGQTExZGQCAw8PFgIfAAUDMTI0ZGQCBA9kFgICAQ8PFgIfAAUCNzFkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNTIuOSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFMzUuMiVkZAIHD2QWAgIBDw8WAh8ABQQ5LjYwZGQCCA9kFgQCAQ8PFgIfAAUQMy4zNzMxMzQzMjgzNTgyMWRkAgMPDxYCHwAFCUIrICgzLjM3KWRkAgkPZBYEAgEPDxYCHwAFBDMuNThkZAIDDw8WAh8ABQlCKyAoMy41OClkZALdDA9kFhRmDw8WAh8ABSNBbGJpemF0aSwgS2ltIEYuICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0ODBkZAIDDw8WAh8ABQY3MjM2NjFkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MjM2NjEfAAUtQ0hFTSA2QiAgLSBHZW5lcmFsIENoZW1pc3RyeSBJSSAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUERkExMWRkAgMPDxYCHwAFAzI5MWRkAgQPZBYCAgEPDxYCHwAFAzE0MmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MS41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Ni41JWRkAgcPZBYCAgEPDxYCHwAFBDcuNDRkZAIID2QWBAIBDw8WAh8ABRAzLjE2Mjk2Mjk2Mjk2Mjk2ZGQCAw8PFgIfAAUIQiAoMy4xNilkZAIJD2QWBAIBDw8WAh8ABQUyLjY5OGRkAgMPDxYCHwAFCUMrICgyLjcwKWRkAt4MD2QWFGYPDxYCHwAFI0pvaG5zb24sIENocmlzdGluYSBBICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ4MGRkAgMPDxYCHwAFBjcyMzcwMWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcyMzcwMR8ABS1DSEVNIDZDICAtIEdlbmVyYWwgQ2hlbWlzdHJ5ICBJSUkgICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTExZGQCAw8PFgIfAAUDMjM5ZGQCBA9kFgICAQ8PFgIfAAUDMTA5ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkyLjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk2LjMlZGQCBw9kFgICAQ8PFgIfAAUENy43N2RkAggPZBYEAgEPDxYCHwAFEDMuMTEyMTQ5NTMyNzEwMjhkZAIDDw8WAh8ABQhCICgzLjExKWRkAgkPZBYEAgEPDxYCHwAFBTIuOTM3ZGQCAw8PFgIfAAUJQi0gKDIuOTQpZGQC3wwPZBYUZg8PFgIfAAUjSm9obnNvbiwgQ2hyaXN0aW5hIEEgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDgwZGQCAw8PFgIfAAUGNzIzNzEyZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzIzNzEyHwAFLUNIRU0gNkMgIC0gR2VuZXJhbCBDaGVtaXN0cnkgIElJSSAgICAgICAgIChCKWRkAgIPDxYCHwAFBEZBMTFkZAIDDw8WAh8ABQMxMjdkZAIED2QWAgIBDw8WAh8ABQI1NGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5OC4xJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Ni4yJWRkAgcPZBYCAgEPDxYCHwAFBDguNjVkZAIID2QWBAIBDw8WAh8ABRAzLjA3NTQ3MTY5ODExMzIxZGQCAw8PFgIfAAUIQiAoMy4wOClkZAIJD2QWBAIBDw8WAh8ABQUyLjkzN2RkAgMPDxYCHwAFCUItICgyLjk0KWRkAuAMD2QWFGYPDxYCHwAFI0Jlcm5pb2xsZXMsIFNhbmRyaW5lICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ4MGRkAgMPDxYCHwAFBjcyMzY3MWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcyMzY3MR8ABS1DSEVNIDdMICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IExhYm9yYXRvcnkgICAoQSlkZAICDw8WAh8ABQRGQTExZGQCAw8PFgIfAAUDMjY5ZGQCBA9kFgICAQ8PFgIfAAUDMTI2ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgzLjklZGQCBw9kFgICAQ8PFgIfAAUENy4xM2RkAggPZBYEAgEPDxYCHwAFEDMuNTg4NzA5Njc3NDE5MzZkZAIDDw8WAh8ABQlCKyAoMy41OSlkZAIJD2QWBAIBDw8WAh8ABQQyLjkzZGQCAw8PFgIfAAUJQi0gKDIuOTMpZGQC4QwPZBYUZg8PFgIfAAUjQmVybmlvbGxlcywgU2FuZHJpbmUgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDgwZGQCAw8PFgIfAAUGNzIzNjg2ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzIzNjg2HwAFLUNIRU0gN0wgIC0gR2VuZXJhbCBDaGVtaXN0cnkgTGFib3JhdG9yeSAgIChCKWRkAgIPDxYCHwAFBEZBMTFkZAIDDw8WAh8ABQMyNzRkZAIED2QWAgIBDw8WAh8ABQMxMjFkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODEuOCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTMuMyVkZAIHD2QWAgIBDw8WAh8ABQQ2Ljg1ZGQCCA9kFgQCAQ8PFgIfAAUQMy40MzIyMDMzODk4MzA1MWRkAgMPDxYCHwAFCUIrICgzLjQzKWRkAgkPZBYEAgEPDxYCHwAFBDIuOTNkZAIDDw8WAh8ABQlCLSAoMi45MylkZALiDA9kFhRmDw8WAh8ABSNDendvcmtvd3NraSwgSm9obiAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0ODBkZAIDDw8WAh8ABQY3Mjc0NzRkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03Mjc0NzQfAAUuQ0hFTSA4NyAgIC0gRnJlc2htYW4gU2VtaW5hciAgICAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMTFkZAIDDw8WAh8ABQIxNGRkAgQPZBYCAgEPDxYCHwAFATRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDEuNTBkZAIID2QWBAIBDw8WAh8ABQE0ZGQCAw8PFgIfAAUIQSAoNC4wMClkZAIJD2QWAgIBDw8WAh8AZWRkAuMMD2QWFGYPDxYCHwAFI1dlaXptYW4sIEhhaW0gICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ4MGRkAgMPDxYCHwAFBjcyOTQ1NGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcyOTQ1NB8ABS5DSEVNIDg3ICAgLSBGcmVzaG1hbiBTZW1pbmFyICAgICAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUERkExMWRkAgMPDxYCHwAFAjE5ZGQCBA9kFgICAQ8PFgIfAAUCMTZkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDEuNjNkZAIID2QWBAIBDw8WAh8ABQE0ZGQCAw8PFgIfAAUIQSAoNC4wMClkZAIJD2QWAgIBDw8WAh8AZWRkAuQMD2QWFGYPDxYCHwAFI0Z1c2NvLCBBbWFuZGEgSi4gICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ1MGRkAgMPDxYCHwAFBjcxOTI2M2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcxOTI2Mx8ABS9DSEVNIDExNEEgIC0gQmlvY2hlbWljYWwgU3RydWN0dXJlJkZ1bmN0aW9uIChBKWRkAgIPDxYCHwAFBFMyMTFkZAIDDw8WAh8ABQI3MGRkAgQPZBYCAgEPDxYCHwAFAjI1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg4LjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg4LjAlZGQCBw9kFgICAQ8PFgIfAAUEOC43NWRkAggPZBYEAgEPDxYCHwAFBDMuMjRkZAIDDw8WAh8ABQhCICgzLjI0KWRkAgkPZBYEAgEPDxYCHwAFEDMuMTY3MTY0MTc5MTA0NDhkZAIDDw8WAh8ABQhCICgzLjE3KWRkAuUMD2QWFGYPDxYCHwAFI0FsYml6YXRpLCBLaW0gRi4gICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ1MGRkAgMPDxYCHwAFBjcxOTI2NWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcxOTI2NR8ABS9DSEVNIDE0MEEgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSSAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFMyMTFkZAIDDw8WAh8ABQMxMDRkZAIED2QWAgIBDw8WAh8ABQI0M2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5My4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQUxMi4yN2RkAggPZBYEAgEPDxYCHwAFEDMuMzQxNDYzNDE0NjM0MTVkZAIDDw8WAh8ABQlCKyAoMy4zNClkZAIJD2QWBAIBDw8WAh8ABRAyLjU3NDc0NzQ3NDc0NzQ4ZGQCAw8PFgIfAAUJQysgKDIuNTcpZGQC5gwPZBYUZg8PFgIfAAUjT2Nvbm5vciwgSm9zZXBoIE0uICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDUwZGQCAw8PFgIfAAUGNzE5MjY3ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzE5MjY3HwAFL0NIRU0gMTQwQiAgLSBPcmdhbmljIENoZW1pc3RyeSBJSSAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEUzIxMWRkAgMPDxYCHwAFAzE3MmRkAgQPZBYCAgEPDxYCHwAFAjQ4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg1LjElZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkzLjYlZGQCBw9kFgICAQ8PFgIfAAUFMTAuNjNkZAIID2QWBAIBDw8WAh8ABRAyLjk3ODcyMzQwNDI1NTMyZGQCAw8PFgIfAAUJQi0gKDIuOTgpZGQCCQ9kFgQCAQ8PFgIfAAUQMi41MzUxNTE1MTUxNTE1MWRkAgMPDxYCHwAFCUMrICgyLjU0KWRkAucMD2QWFGYPDxYCHwAFI1Rlcm5hbnNreSwgUm9iZXJ0IEouICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ1MGRkAgMPDxYCHwAFBjcxOTI2OWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcxOTI2OR8ABS9DSEVNIDE0MEMgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSUlJICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFMyMTFkZAIDDw8WAh8ABQIzN2RkAgQPZBYCAgEPDxYCHwAFAjE0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc4LjYlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkyLjklZGQCBw9kFgICAQ8PFgIfAAUFMTMuOTNkZAIID2QWBAIBDw8WAh8ABRAyLjY5MjMwNzY5MjMwNzY5ZGQCAw8PFgIfAAUJQysgKDIuNjkpZGQCCQ9kFgQCAQ8PFgIfAAUQMi42NTc1NzU3NTc1NzU3NmRkAgMPDxYCHwAFCUMrICgyLjY2KWRkAugMD2QWFGYPDxYCHwAFI0pvaG5zb24sIENocmlzdGluYSBBICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ1MGRkAgMPDxYCHwAFBjcxOTI1OWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcxOTI1OR8ABS1DSEVNIDZCICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IElJICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRTMjExZGQCAw8PFgIfAAUCNjNkZAIED2QWAgIBDw8WAh8ABQIxOGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4My4zJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQUxMS4xN2RkAggPZBYEAgEPDxYCHwAFEDIuOTQ0NDQ0NDQ0NDQ0NDRkZAIDDw8WAh8ABQlCLSAoMi45NClkZAIJD2QWBAIBDw8WAh8ABQQyLjc1ZGQCAw8PFgIfAAUJQi0gKDIuNzUpZGQC6QwPZBYUZg8PFgIfAAUjSm9obnNvbiwgQ2hyaXN0aW5hIEEgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDUwZGQCAw8PFgIfAAUGNzE5MjYxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzE5MjYxHwAFLUNIRU0gNkMgIC0gR2VuZXJhbCBDaGVtaXN0cnkgIElJSSAgICAgICAgIChBKWRkAgIPDxYCHwAFBFMyMTFkZAIDDw8WAh8ABQMxMDVkZAIED2QWAgIBDw8WAh8ABQIzMmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3OC4xJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NC40JWRkAgcPZBYCAgEPDxYCHwAFBTExLjA2ZGQCCA9kFgQCAQ8PFgIfAAUQMy4xNjEyOTAzMjI1ODA2NWRkAgMPDxYCHwAFCEIgKDMuMTYpZGQCCQ9kFgQCAQ8PFgIfAAUQMi44ODA0MTIzNzExMzQwMmRkAgMPDxYCHwAFCUItICgyLjg4KWRkAuoMD2QWFGYPDxYCHwAFI1BvbWVyb3ksIFJvYmVydCBTLiAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ0MGRkAgMPDxYCHwAFBjcyNzcxN2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcyNzcxNx8ABS9DSEVNIDEwMEEgIC0gQW5hbHl0aWNhbCBDaGVtIExhYiAgICAgICAgICAgIChCKWRkAgIPDxYCHwAFBFMxMTFkZAIDDw8WAh8ABQIzOGRkAgQPZBYCAgEPDxYCHwAFAjE1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkzLjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg2LjclZGQCBw9kFgICAQ8PFgIfAAUEOS4wM2RkAggPZBYEAgEPDxYCHwAFEDMuMTQyODU3MTQyODU3MTRkZAIDDw8WAh8ABQhCICgzLjE0KWRkAgkPZBYEAgEPDxYCHwAFEDMuMDUyNjMxNTc4OTQ3MzdkZAIDDw8WAh8ABQhCICgzLjA1KWRkAusMD2QWFGYPDxYCHwAFI0JyeWRnZXMsIFN0YWNleSAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ0MGRkAgMPDxYCHwAFBjcxODUzM2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcxODUzMx8ABS5DSEVNIDExICAgLSBUaGUgUGVyaW9kaWMgVGFibGUgICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEUzExMWRkAgMPDxYCHwAFAjMxZGQCBA9kFgICAQ8PFgIfAAUCMTFkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDkuNDFkZAIID2QWBAIBDw8WAh8ABQEzZGQCAw8PFgIfAAUIQiAoMy4wMClkZAIJD2QWBAIBDw8WAh8ABRAyLjg1NzY5MjMwNzY5MjMxZGQCAw8PFgIfAAUJQi0gKDIuODYpZGQC7AwPZBYUZg8PFgIfAAUjT2Nvbm5vciwgSm9zZXBoIE0uICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDQwZGQCAw8PFgIfAAUGNzE4NTM3ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzE4NTM3HwAFL0NIRU0gMTQwQSAgLSBPcmdhbmljIENoZW1pc3RyeSBJICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEUzExMWRkAgMPDxYCHwAFAzEzMWRkAgQPZBYCAgEPDxYCHwAFAjMzZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQUxMS40N2RkAggPZBYEAgEPDxYCHwAFEDMuNDI0MjQyNDI0MjQyNDJkZAIDDw8WAh8ABQlCKyAoMy40MilkZAIJD2QWBAIBDw8WAh8ABRAyLjY2MTY2NjY2NjY2NjY3ZGQCAw8PFgIfAAUJQysgKDIuNjYpZGQC7QwPZBYUZg8PFgIfAAUjV2Vpem1hbiwgSGFpbSAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDQwZGQCAw8PFgIfAAUGNzE4NTM5ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzE4NTM5HwAFL0NIRU0gMTQwQiAgLSBPcmdhbmljIENoZW1pc3RyeSBJSSAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEUzExMWRkAgMPDxYCHwAFAzIwN2RkAgQPZBYCAgEPDxYCHwAFAjQzZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgzLjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkwLjclZGQCBw9kFgICAQ8PFgIfAAUFMTAuNzlkZAIID2QWBAIBDw8WAh8ABRAzLjE0Mjg1NzE0Mjg1NzE0ZGQCAw8PFgIfAAUIQiAoMy4xNClkZAIJD2QWBAIBDw8WAh8ABRAyLjkwMTQ4NTE0ODUxNDg1ZGQCAw8PFgIfAAUJQi0gKDIuOTApZGQC7gwPZBYUZg8PFgIfAAUjQWxiaXphdGksIEtpbSBGLiAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDQwZGQCAw8PFgIfAAUGNzE4NTQxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzE4NTQxHwAFL0NIRU0gMTQwQyAgLSBPcmdhbmljIENoZW1pc3RyeSBJSUkgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEUzExMWRkAgMPDxYCHwAFAzMwMGRkAgQPZBYCAgEPDxYCHwAFAzEwM2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ny4zJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5OS4wJWRkAgcPZBYCAgEPDxYCHwAFBTExLjAzZGQCCA9kFgQCAQ8PFgIfAAUPMy4zOTYwMzk2MDM5NjA0ZGQCAw8PFgIfAAUJQisgKDMuNDApZGQCCQ9kFgQCAQ8PFgIfAAUQMi43MjQxMTM0NzUxNzczMWRkAgMPDxYCHwAFCUItICgyLjcyKWRkAu8MD2QWFGYPDxYCHwAFI1dlaXptYW4sIEhhaW0gICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQ0MGRkAgMPDxYCHwAFBjcxODU0M2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcxODU0Mx8ABS9DSEVNIDE0M0EgIC0gT3JnYW5pYyBDaGVtaXN0cnkgTGFib3JhdG9yeSAgIChBKWRkAgIPDxYCHwAFBFMxMTFkZAIDDw8WAh8ABQI4NmRkAgQPZBYCAgEPDxYCHwAFAjMyZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg3LjUlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkwLjYlZGQCBw9kFgICAQ8PFgIfAAUFMTAuODFkZAIID2QWBAIBDw8WAh8ABQQzLjI1ZGQCAw8PFgIfAAUIQiAoMy4yNSlkZAIJD2QWBAIBDw8WAh8ABRAzLjA3OTAxMjM0NTY3OTAxZGQCAw8PFgIfAAUIQiAoMy4wOClkZALwDA9kFhRmDw8WAh8ABSNUZXJuYW5za3ksIFJvYmVydCBKLiAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0NDBkZAIDDw8WAh8ABQY3MTg1NDZkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MTg1NDYfAAUvQ0hFTSAxNDNCICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IExhYm9yYXRvcnkgICAoQSlkZAICDw8WAh8ABQRTMTExZGQCAw8PFgIfAAUCMjNkZAIED2QWAgIBDw8WAh8ABQIyMGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NS4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ2LjUwZGQCCA9kFgQCAQ8PFgIfAAUDMy4yZGQCAw8PFgIfAAUIQiAoMy4yMClkZAIJD2QWBAIBDw8WAh8ABRAzLjQwOTUyMzgwOTUyMzgxZGQCAw8PFgIfAAUJQisgKDMuNDEpZGQC8QwPZBYUZg8PFgIfAAUjSG9lZ2VyLCBDYXJsICAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDQwZGQCAw8PFgIfAAUGNzE4NTI0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzE4NTI0HwAFLUNIRU0gNkEgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSSAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFMxMTFkZAIDDw8WAh8ABQI5MWRkAgQPZBYCAgEPDxYCHwAFAjI0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgzLjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgzLjMlZGQCBw9kFgICAQ8PFgIfAAUEOS4yNWRkAggPZBYEAgEPDxYCHwAFATNkZAIDDw8WAh8ABQhCICgzLjAwKWRkAgkPZBYEAgEPDxYCHwAFEDIuNjY4ODMxMTY4ODMxMTdkZAIDDw8WAh8ABQlDKyAoMi42NylkZALyDA9kFhRmDw8WAh8ABSNQb21lcm95LCBSb2JlcnQgUy4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0NDBkZAIDDw8WAh8ABQY3MTg1MjZkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MTg1MjYfAAUtQ0hFTSA2QiAgLSBHZW5lcmFsIENoZW1pc3RyeSBJSSAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEUzExMWRkAgMPDxYCHwAFAjgxZGQCBA9kFgICAQ8PFgIfAAUCNDBkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzcuNSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTIuNSVkZAIHD2QWAgIBDw8WAh8ABQQ5LjkwZGQCCA9kFgQCAQ8PFgIfAAUQMi44MjA1MTI4MjA1MTI4MmRkAgMPDxYCHwAFCUItICgyLjgyKWRkAgkPZBYEAgEPDxYCHwAFEDIuNDc2NDcwNTg4MjM1MjlkZAIDDw8WAh8ABQlDKyAoMi40OClkZALzDA9kFhRmDw8WAh8ABSNIb2VnZXIsIENhcmwgICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0NDBkZAIDDw8WAh8ABQY3MTg1MjhkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MTg1MjgfAAUtQ0hFTSA2QyAgLSBHZW5lcmFsIENoZW1pc3RyeSAgSUlJICAgICAgICAgKEEpZGQCAg8PFgIfAAUEUzExMWRkAgMPDxYCHwAFAzEwOGRkAgQPZBYCAgEPDxYCHwAFAjUyZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkwLjQlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk4LjAlZGQCBw9kFgICAQ8PFgIfAAUFMTAuMDdkZAIID2QWBAIBDw8WAh8ABRAzLjIzMDc2OTIzMDc2OTIzZGQCAw8PFgIfAAUIQiAoMy4yMylkZAIJD2QWBAIBDw8WAh8ABRAyLjk0NzExNTM4NDYxNTM4ZGQCAw8PFgIfAAUJQi0gKDIuOTUpZGQC9AwPZBYUZg8PFgIfAAUjQmVybmlvbGxlcywgU2FuZHJpbmUgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDQwZGQCAw8PFgIfAAUGNzE4NTMwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzE4NTMwHwAFLUNIRU0gN0wgIC0gR2VuZXJhbCBDaGVtaXN0cnkgTGFib3JhdG9yeSAgIChBKWRkAgIPDxYCHwAFBFMxMTFkZAIDDw8WAh8ABQMxODdkZAIED2QWAgIBDw8WAh8ABQI3NGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ni4zJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5OC42JWRkAgcPZBYCAgEPDxYCHwAFBTEwLjU1ZGQCCA9kFgQCAQ8PFgIfAAUQMy4zNjExMTExMTExMTExMWRkAgMPDxYCHwAFCUIrICgzLjM2KWRkAgkPZBYEAgEPDxYCHwAFEDIuNzg1NzE0Mjg1NzE0MjlkZAIDDw8WAh8ABQlCLSAoMi43OSlkZAL1DA9kFhRmDw8WAh8ABSNGZW5nLCBEYSBGZWkgICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MzBkZAIDDw8WAh8ABQY3MTM2NDFkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MTM2NDEfAAUvQ0hFTSAxMDBBICAtIEFuYWx5dGljYWwgQ2hlbSBMYWIgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRTUDExZGQCAw8PFgIfAAUCOTRkZAIED2QWAgIBDw8WAh8ABQIzNmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU1OC4zJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU2My45JWRkAgcPZBYCAgEPDxYCHwAFBTExLjMwZGQCCA9kFgQCAQ8PFgIfAAUQMy4xMTQyODU3MTQyODU3MWRkAgMPDxYCHwAFCEIgKDMuMTEpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4xMzlkZAIDDw8WAh8ABQhCICgzLjE0KWRkAvYMD2QWFGYPDxYCHwAFI1BvbWVyb3ksIFJvYmVydCBTLiAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQzMGRkAgMPDxYCHwAFBjcxMzY0OGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcxMzY0OB8ABS9DSEVNIDEwMEIgIC0gRnVuZGFtZW50bHMvSW5zdHJ1bWVudGwgQW5hbHlzIChBKWRkAgIPDxYCHwAFBFNQMTFkZAIDDw8WAh8ABQIxNmRkAgQPZBYCAgEPDxYCHwAFATVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDYuNTBkZAIID2QWBAIBDw8WAh8ABQEzZGQCAw8PFgIfAAUIQiAoMy4wMClkZAIJD2QWAgIBDw8WAh8AZWRkAvcMD2QWFGYPDxYCHwAFI1BvbWVyb3ksIFJvYmVydCBTLiAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQzMGRkAgMPDxYCHwAFBjcxMzY1MGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcxMzY1MB8ABS9DSEVNIDEwMEJMIC0gSW5zdHJ1bWVudGFsIEFuYWx5c2lzIExhYiAgICAgIChBKWRkAgIPDxYCHwAFBFNQMTFkZAIDDw8WAh8ABQIxNWRkAgQPZBYCAgEPDxYCHwAFATRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDkuMDBkZAIID2QWBAIBDw8WAh8ABRAzLjMzMzMzMzMzMzMzMzMzZGQCAw8PFgIfAAUJQisgKDMuMzMpZGQCCQ9kFgICAQ8PFgIfAGVkZAL4DA9kFhRmDw8WAh8ABSNNYWdkZSwgRG91Z2xhcyAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MzBkZAIDDw8WAh8ABQY3MTM2NTFkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MTM2NTEfAAUvQ0hFTSAxMDVBICAtIFBoeXNpY2FsIENoZW1pc3RyeSBMYWJvcmF0b3J5ICAoQSlkZAICDw8WAh8ABQRTUDExZGQCAw8PFgIfAAUCNjFkZAIED2QWAgIBDw8WAh8ABQIyNmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3My4xJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ5LjI3ZGQCCA9kFgQCAQ8PFgIfAAUQMy4yMzA3NjkyMzA3NjkyM2RkAgMPDxYCHwAFCEIgKDMuMjMpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4xNDRkZAIDDw8WAh8ABQhCICgzLjE0KWRkAvkMD2QWFGYPDxYCHwAFI01hZ2RlLCBEb3VnbGFzICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQzMGRkAgMPDxYCHwAFBjcxMzY1NGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcxMzY1NB8ABS9DSEVNIDEwNUIgIC0gUGh5c2ljYWwgQ2hlbWlzdHJ5IExhYm9yYXRvcnkgIChBKWRkAgIPDxYCHwAFBFNQMTFkZAIDDw8WAh8ABQE0ZGQCBA9kFgICAQ8PFgIfAAUBNGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUEOC41MGRkAggPZBYEAgEPDxYCHwAFATRkZAIDDw8WAh8ABQhBICg0LjAwKWRkAgkPZBYCAgEPDxYCHwBlZGQC+gwPZBYUZg8PFgIfAAUjSm9obnNvbiwgQ2hyaXN0aW5hIEEgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDMwZGQCAw8PFgIfAAUGNzEzNjU1ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzEzNjU1HwAFL0NIRU0gMTA5ICAgLSBSZWNvbWJpbmFudCBETkEgTGFib3JhdG9yeSAgICAgKEEpZGQCAg8PFgIfAAUEU1AxMWRkAgMPDxYCHwAFAjQzZGQCBA9kFgICAQ8PFgIfAAUCMTlkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjguNCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUENi4wOGRkAggPZBYEAgEPDxYCHwAFEDMuMzg4ODg4ODg4ODg4ODlkZAIDDw8WAh8ABQlCKyAoMy4zOSlkZAIJD2QWBAIBDw8WAh8ABQUzLjM4MmRkAgMPDxYCHwAFCUIrICgzLjM4KWRkAvsMD2QWFGYPDxYCHwAFI0pvaG5zb24sIENocmlzdGluYSBBICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQzMGRkAgMPDxYCHwAFBjcxMzY1OGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcxMzY1OB8ABS9DSEVNIDEwOSAgIC0gUmVjb21iaW5hbnQgRE5BIExhYm9yYXRvcnkgICAgIChCKWRkAgIPDxYCHwAFBFNQMTFkZAIDDw8WAh8ABQI0MmRkAgQPZBYCAgEPDxYCHwAFAjE4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgzLjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg4LjklZGQCBw9kFgICAQ8PFgIfAAUENy4yOGRkAggPZBYEAgEPDxYCHwAFEDMuMzMzMzMzMzMzMzMzMzNkZAIDDw8WAh8ABQlCKyAoMy4zMylkZAIJD2QWBAIBDw8WAh8ABQUzLjM4MmRkAgMPDxYCHwAFCUIrICgzLjM4KWRkAvwMD2QWFGYPDxYCHwAFI0Rvbm9naHVlLCBEYW5pZWwgSi4gICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQzMGRkAgMPDxYCHwAFBjcxMzYyNWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcxMzYyNR8ABS5DSEVNIDExICAgLSBUaGUgUGVyaW9kaWMgVGFibGUgICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1AxMWRkAgMPDxYCHwAFAzEzOWRkAgQPZBYCAgEPDxYCHwAFAjYwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk1LjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk4LjMlZGQCBw9kFgICAQ8PFgIfAAUEMy4zOGRkAggPZBYEAgEPDxYCHwAFEDMuNTYzNjM2MzYzNjM2MzZkZAIDDw8WAh8ABQlCKyAoMy41NilkZAIJD2QWBAIBDw8WAh8ABQUyLjkwM2RkAgMPDxYCHwAFCUItICgyLjkwKWRkAv0MD2QWFGYPDxYCHwAFI0tvbWl2ZXMsIEVsaXphYmV0aCBBICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQzMGRkAgMPDxYCHwAFBjcxMzY2MWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcxMzY2MR8ABS9DSEVNIDExMyAgIC0gUGh5c2ljYWwgQ2hlbS9CaW9sIE1hY3JvbW9sZWMgIChBKWRkAgIPDxYCHwAFBFNQMTFkZAIDDw8WAh8ABQE3ZGQCBA9kFgICAQ8PFgIfAAUBNGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3NS4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ0LjUwZGQCCA9kFgQCAQ8PFgIfAAUEMy43NWRkAgMPDxYCHwAFCUEtICgzLjc1KWRkAgkPZBYCAgEPDxYCHwBlZGQC/gwPZBYUZg8PFgIfAAUeV29seW5lcywgUGV0ZXIgR3V5ICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQzMGRkAgMPDxYCHwAFBjcxMzY2MWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcxMzY2MR8ABS9DSEVNIDExMyAgIC0gUGh5c2ljYWwgQ2hlbS9CaW9sIE1hY3JvbW9sZWMgIChBKWRkAgIPDxYCHwAFBFNQMTFkZAIDDw8WAh8ABQE3ZGQCBA9kFgICAQ8PFgIfAAUBNGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3NS4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU1MC4wJWRkAgcPZBYCAgEPDxYCHwAFBDQuNTBkZAIID2QWBAIBDw8WAh8ABQQzLjc1ZGQCAw8PFgIfAAUJQS0gKDMuNzUpZGQCCQ9kFgICAQ8PFgIfAGVkZAL/DA9kFhRmDw8WAh8ABSNIb2ZmbWFubiwgQWxleGFuZGVyICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MzBkZAIDDw8WAh8ABQY3MTM2NjJkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MTM2NjIfAAUvQ0hFTSAxMTRDICAtIEJpb3N5bnRoZXNpcyBvZiBNYWNyb21vbGVjdWxlcyAoQSlkZAICDw8WAh8ABQRTUDExZGQCAw8PFgIfAAUDMTk2ZGQCBA9kFgICAQ8PFgIfAAUCNzJkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODguNyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTEuNSVkZAIHD2QWAgIBDw8WAh8ABQQ3LjUzZGQCCA9kFgQCAQ8PFgIfAAUQMy4zNzE0Mjg1NzE0Mjg1N2RkAgMPDxYCHwAFCUIrICgzLjM3KWRkAgkPZBYEAgEPDxYCHwAFBTIuNjU1ZGQCAw8PFgIfAAUJQysgKDIuNjYpZGQCgA0PZBYUZg8PFgIfAAUjVHVrZXksIFJvYmVydCBIICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDMwZGQCAw8PFgIfAAUGNzEzNjY5ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzEzNjY5HwAFL0NIRU0gMTE4ICAgLSBQaGFybWFjb2xvZ3kgYW5kIFRveGljb2xvZ3kgICAgKEEpZGQCAg8PFgIfAAUEU1AxMWRkAgMPDxYCHwAFAzEzOWRkAgQPZBYCAgEPDxYCHwAFAjQ1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkxLjElZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg4LjklZGQCBw9kFgICAQ8PFgIfAAUENS40MWRkAggPZBYEAgEPDxYCHwAFEDMuMzQwOTA5MDkwOTA5MDlkZAIDDw8WAh8ABQlCKyAoMy4zNClkZAIJD2QWBAIBDw8WAh8ABQUyLjc5MmRkAgMPDxYCHwAFCUItICgyLjc5KWRkAoEND2QWFGYPDxYCHwAFI0NvaGVuLCBTZXRoIE0gICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQzMGRkAgMPDxYCHwAFBjcxMzY3NWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcxMzY3NR8ABS9DSEVNIDEyMEEgIC0gSW5vcmdhbmljIENoZW1pc3RyeSBJICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNQMTFkZAIDDw8WAh8ABQMxNTFkZAIED2QWAgIBDw8WAh8ABQI3M2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NC40JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Mi45JWRkAgcPZBYCAgEPDxYCHwAFBDUuNDlkZAIID2QWBAIBDw8WAh8ABRAzLjQ3ODg3MzIzOTQzNjYyZGQCAw8PFgIfAAUJQisgKDMuNDgpZGQCCQ9kFgQCAQ8PFgIfAAUFMi41MTJkZAIDDw8WAh8ABQlDKyAoMi41MSlkZAKCDQ9kFhRmDw8WAh8ABSNDb2hlbiwgU2V0aCBNICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MzBkZAIDDw8WAh8ABQY3MTQ5MDRkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MTQ5MDQfAAUvQ0hFTSAxMjUgICAtIEJpb2lub3JnYW5pYyBDaGVtaXN0cnkgICAgICAgICAoQSlkZAICDw8WAh8ABQRTUDExZGQCAw8PFgIfAAUCMTVkZAIED2QWAgIBDw8WAh8ABQIxMGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ1LjgzZGQCCA9kFgQCAQ8PFgIfAAUDMy4xZGQCAw8PFgIfAAUIQiAoMy4xMClkZAIJD2QWAgIBDw8WAh8AZWRkAoMND2QWFGYPDxYCHwAFHlRlemNhbiwgRmFpayAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MzBkZAIDDw8WAh8ABQY3MTQ5MDRkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MTQ5MDQfAAUvQ0hFTSAxMjUgICAtIEJpb2lub3JnYW5pYyBDaGVtaXN0cnkgICAgICAgICAoQSlkZAICDw8WAh8ABQRTUDExZGQCAw8PFgIfAAUCMTVkZAIED2QWAgIBDw8WAh8ABQIxMGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ1LjgzZGQCCA9kFgQCAQ8PFgIfAAUDMy4xZGQCAw8PFgIfAAUIQiAoMy4xMClkZAIJD2QWAgIBDw8WAh8AZWRkAoQND2QWFGYPDxYCHwAFI0pvc2VwaCwgU2ltcHNvbiAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQzMGRkAgMPDxYCHwAFBjcxMzYzMmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcxMzYzMh8ABS5DSEVNIDEzICAgLSBDaGVtaXN0cnkgb2YgTGlmZSAgICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1AxMWRkAgMPDxYCHwAFAzEzOWRkAgQPZBYCAgEPDxYCHwAFAjUyZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc4LjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkxLjglZGQCBw9kFgICAQ8PFgIfAAUEMy44NmRkAggPZBYEAgEPDxYCHwAFEDMuNTkyNTkyNTkyNTkyNTlkZAIDDw8WAh8ABQlCKyAoMy41OSlkZAIJD2QWBAIBDw8WAh8ABQUzLjQxNmRkAgMPDxYCHwAFCUIrICgzLjQyKWRkAoUND2QWFGYPDxYCHwAFI0xpbmRlbmJlcmcsIEthdGphICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQzMGRkAgMPDxYCHwAFBjcxMzY4MGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcxMzY4MB8ABS9DSEVNIDEzMiAgIC0gUGh5c2ljYWwgQ2hlbWlzdHJ5ICAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNQMTFkZAIDDw8WAh8ABQI5NWRkAgQPZBYCAgEPDxYCHwAFAjQyZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTYxLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTY4LjMlZGQCBw9kFgICAQ8PFgIfAAUEOC42NGRkAggPZBYEAgEPDxYCHwAFBDMuMDVkZAIDDw8WAh8ABQhCICgzLjA1KWRkAgkPZBYEAgEPDxYCHwAFBTIuNDg2ZGQCAw8PFgIfAAUJQysgKDIuNDkpZGQChg0PZBYUZg8PFgIfAAUjU2luaGEsIEFtaXRhYmhhICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDMwZGQCAw8PFgIfAAUGNzEzNjg0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzEzNjg0HwAFL0NIRU0gMTM1ICAgLSBNb2xlY3VsYXIgU3BlY3Ryb3Njb3B5ICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1AxMWRkAgMPDxYCHwAFATVkZAIED2QWAgIBDw8WAh8ABQEzZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTY2LjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBTEyLjUwZGQCCA9kFgQCAQ8PFgIfAAUBM2RkAgMPDxYCHwAFCEIgKDMuMDApZGQCCQ9kFgICAQ8PFgIfAGVkZAKHDQ9kFhRmDw8WAh8ABSNZYW5nLCBKZXJyeSAgICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MzBkZAIDDw8WAh8ABQY3MTM2ODVkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MTM2ODUfAAUvQ0hFTSAxNDBBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRTUDExZGQCAw8PFgIfAAUDMjkwZGQCBA9kFgICAQ8PFgIfAAUDMTA4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkyLjUlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg5LjglZGQCBw9kFgICAQ8PFgIfAAUEOC45OGRkAggPZBYEAgEPDxYCHwAFEDMuMDg2NTM4NDYxNTM4NDZkZAIDDw8WAh8ABQhCICgzLjA5KWRkAgkPZBYEAgEPDxYCHwAFBTIuNjExZGQCAw8PFgIfAAUJQysgKDIuNjEpZGQCiA0PZBYUZg8PFgIfAAUjV2hpdGVzZWxsLCBKYW1lcyBLLiAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDMwZGQCAw8PFgIfAAUGNzEzNjk2ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzEzNjk2HwAFL0NIRU0gMTQwQiAgLSBPcmdhbmljIENoZW1pc3RyeSBJSSAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1AxMWRkAgMPDxYCHwAFAzM3M2RkAgQPZBYCAgEPDxYCHwAFAzE0M2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3NS41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU0MS4wJWRkAgcPZBYCAgEPDxYCHwAFBDcuMDdkZAIID2QWBAIBDw8WAh8ABRAzLjIwNDU0NTQ1NDU0NTQ1ZGQCAw8PFgIfAAUIQiAoMy4yMClkZAIJD2QWBAIBDw8WAh8ABQUyLjM4N2RkAgMPDxYCHwAFCUMrICgyLjM5KWRkAokND2QWFGYPDxYCHwAFI01vbGluc2tpLCBUYWRldXN6ICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQzMGRkAgMPDxYCHwAFBjcxMzcwN2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcxMzcwNx8ABS9DSEVNIDE0MEIgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSUkgICAgICAgICAgIChCKWRkAgIPDxYCHwAFBFNQMTFkZAIDDw8WAh8ABQMyMDJkZAIED2QWAgIBDw8WAh8ABQI4M2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4MS43JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQUyNC40JWRkAgcPZBYCAgEPDxYCHwAFBDguMzNkZAIID2QWBAIBDw8WAh8ABQUyLjkyNWRkAgMPDxYCHwAFCUItICgyLjkzKWRkAgkPZBYEAgEPDxYCHwAFBTIuNTYxZGQCAw8PFgIfAAUJQysgKDIuNTYpZGQCig0PZBYUZg8PFgIfAAUjSG9lZ2VyLCBDYXJsICAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDMwZGQCAw8PFgIfAAUGNzEzNzE4ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzEzNzE4HwAFL0NIRU0gMTQwQyAgLSBPcmdhbmljIENoZW1pc3RyeSBJSUkgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1AxMWRkAgMPDxYCHwAFAzMyMWRkAgQPZBYCAgEPDxYCHwAFAzE0OGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4MC44JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NS42JWRkAgcPZBYCAgEPDxYCHwAFBDguOTdkZAIID2QWBAIBDw8WAh8ABQ8zLjAzNTQ2MDk5MjkwNzhkZAIDDw8WAh8ABQhCICgzLjA0KWRkAgkPZBYEAgEPDxYCHwAFBTMuMTMxZGQCAw8PFgIfAAUIQiAoMy4xMylkZAKLDQ9kFhRmDw8WAh8ABSNUZXJuYW5za3ksIFJvYmVydCBKLiAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MzBkZAIDDw8WAh8ABQY3MTM3MjlkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MTM3MjkfAAUvQ0hFTSAxNDBDICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IElJSSAgICAgICAgICAoQilkZAICDw8WAh8ABQRTUDExZGQCAw8PFgIfAAUDMjEzZGQCBA9kFgICAQ8PFgIfAAUDMTY0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgyLjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg2LjUlZGQCBw9kFgICAQ8PFgIfAAUFMTAuNjZkZAIID2QWBAIBDw8WAh8ABQczLjAxODc1ZGQCAw8PFgIfAAUIQiAoMy4wMilkZAIJD2QWBAIBDw8WAh8ABQUyLjkxOGRkAgMPDxYCHwAFCUItICgyLjkyKWRkAowND2QWFGYPDxYCHwAFI1RvciwgWWl0emhhayAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQzMGRkAgMPDxYCHwAFBjcxMzc1MWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcxMzc1MR8ABS9DSEVNIDE0MENIIC0gSG9ub3JzIE9yZ2FuaWMgQ2hlbWlzdHJ5ICAgICAgIChBKWRkAgIPDxYCHwAFBFNQMTFkZAIDDw8WAh8ABQI1MmRkAgQPZBYCAgEPDxYCHwAFAjM3ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ3LjExZGQCCA9kFgQCAQ8PFgIfAAUQMy42NTcxNDI4NTcxNDI4NmRkAgMPDxYCHwAFCUIrICgzLjY2KWRkAgkPZBYEAgEPDxYCHwAFBTMuMzc1ZGQCAw8PFgIfAAUJQisgKDMuMzgpZGQCjQ0PZBYUZg8PFgIfAAUjV2Vpem1hbiwgSGFpbSAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDMwZGQCAw8PFgIfAAUGNzEzNzU0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzEzNzU0HwAFL0NIRU0gMTQzQSAgLSBPcmdhbmljIENoZW1pc3RyeSBMYWJvcmF0b3J5ICAgKEEpZGQCAg8PFgIfAAUEU1AxMWRkAgMPDxYCHwAFAzQ1NmRkAgQPZBYCAgEPDxYCHwAFAzIwNWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MC41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MS42JWRkAgcPZBYCAgEPDxYCHwAFBDcuNzNkZAIID2QWBAIBDw8WAh8ABRAzLjMzMTcwNzMxNzA3MzE3ZGQCAw8PFgIfAAUJQisgKDMuMzMpZGQCCQ9kFgQCAQ8PFgIfAAUFMi45ODdkZAIDDw8WAh8ABQlCLSAoMi45OSlkZAKODQ9kFhRmDw8WAh8ABSNUZXJuYW5za3ksIFJvYmVydCBKLiAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MzBkZAIDDw8WAh8ABQY3MTM3NzVkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MTM3NzUfAAUvQ0hFTSAxNDNCICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IExhYm9yYXRvcnkgICAoQSlkZAICDw8WAh8ABQRTUDExZGQCAw8PFgIfAAUCOTlkZAIED2QWAgIBDw8WAh8ABQI0OWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3My41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4MS4zJWRkAgcPZBYCAgEPDxYCHwAFBDguMzRkZAIID2QWBAIBDw8WAh8ABRAzLjIwODMzMzMzMzMzMzMzZGQCAw8PFgIfAAUIQiAoMy4yMSlkZAIJD2QWBAIBDw8WAh8ABQUzLjI4NmRkAgMPDxYCHwAFCEIgKDMuMjkpZGQCjw0PZBYUZg8PFgIfAAUjV2Vpem1hbiwgSGFpbSAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDMwZGQCAw8PFgIfAAUGNzEzNzgxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzEzNzgxHwAFL0NIRU0gMTQzRCAgLSBNb2xlY3VsYXIgRGVzaWduICYgU3ludGhlc2lzICAgKEEpZGQCAg8PFgIfAAUEU1AxMWRkAgMPDxYCHwAFAjE1ZGQCBA9kFgICAQ8PFgIfAAUBOWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUEOC45NGRkAggPZBYEAgEPDxYCHwAFEDMuNTU1NTU1NTU1NTU1NTZkZAIDDw8WAh8ABQlCKyAoMy41NilkZAIJD2QWAgIBDw8WAh8AZWRkApAND2QWFGYPDxYCHwAFI0J1cmthcnQsIE1pY2hhZWwgRCAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQzMGRkAgMPDxYCHwAFBjcxMzc4M2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcxMzc4Mx8ABS9DSEVNIDE1NyAgIC0gTmF0dXJhbCBQcm9kdWN0cyBDaGVtaXN0cnkgICAgIChBKWRkAgIPDxYCHwAFBFNQMTFkZAIDDw8WAh8ABQI2NGRkAgQPZBYCAgEPDxYCHwAFAjI3ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc0LjElZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkyLjYlZGQCBw9kFgICAQ8PFgIfAAUENS45OGRkAggPZBYEAgEPDxYCHwAFBTMuMTI1ZGQCAw8PFgIfAAUIQiAoMy4xMylkZAIJD2QWBAIBDw8WAh8ABQUzLjEyNmRkAgMPDxYCHwAFCEIgKDMuMTMpZGQCkQ0PZBYUZg8PFgIfAAUeSGVybWFubiwgVGhvbWFzICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQzMGRkAgMPDxYCHwAFBzcxMzc4M0FkZAIFDw8WBB8FBS4uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MTM3ODNBHwAFL0NIRU0gMTU3ICAgLSBOYXR1cmFsIFByb2R1Y3RzIENoZW1pc3RyeSAgICAgKEEpZGQCAg8PFgIfAAUEU1AxMWRkAgMPDxYCHwAFAjY0ZGQCBA9kFgICAQ8PFgIfAAUCMjVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzYuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODguMCVkZAIHD2QWAgIBDw8WAh8ABQQ1Ljk0ZGQCCA9kFgQCAQ8PFgIfAAUPMy4xMzA0MzQ3ODI2MDg3ZGQCAw8PFgIfAAUIQiAoMy4xMylkZAIJD2QWBAIBDw8WAh8ABQUzLjEyNmRkAgMPDxYCHwAFCEIgKDMuMTMpZGQCkg0PZBYUZg8PFgIfAAUjUGVycmluLCBDaGFybGVzIEwuICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDMwZGQCAw8PFgIfAAUGNzEzNzg0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzEzNzg0HwAFL0NIRU0gMTU4ICAgLSBBcHBsaWVkIFNwZWN0cm9zY29weSAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1AxMWRkAgMPDxYCHwAFATZkZAIED2QWAgIBDw8WAh8ABQE0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ2LjAwZGQCCA9kFgQCAQ8PFgIfAAUQMy42NjY2NjY2NjY2NjY2N2RkAgMPDxYCHwAFCUIrICgzLjY3KWRkAgkPZBYCAgEPDxYCHwBlZGQCkw0PZBYUZg8PFgIfAAUjQmFrZXIsIFRpbW90aHkgU3RhbmxleSAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDMwZGQCAw8PFgIfAAUGNzE0NTIzZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzE0NTIzHwAFL0NIRU0gMTY0ICAgLSBTdHJ1Y3R1cmFsIEJpb2xvZ3kgb2YgVmlydXNlcyAgKEEpZGQCAg8PFgIfAAUEU1AxMWRkAgMPDxYCHwAFATZkZAIED2QWAgIBDw8WAh8ABQE0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ0LjUwZGQCCA9kFgQCAQ8PFgIfAAUEMy43NWRkAgMPDxYCHwAFCUEtICgzLjc1KWRkAgkPZBYCAgEPDxYCHwBlZGQClA0PZBYUZg8PFgIfAAUjQmFrZXIsIFRpbW90aHkgU3RhbmxleSAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDMwZGQCAw8PFgIfAAUGNzEzNzg1ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzEzNzg1HwAFL0NIRU0gMTY0ICAgLSBTdHJ1Y3R1cmFsIEJpb2xvZ3kgb2YgVmlydXNlcyAgKEEpZGQCAg8PFgIfAAUEU1AxMWRkAgMPDxYCHwAFAjI1ZGQCBA9kFgICAQ8PFgIfAAUCMTZkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODcuNSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTMuOCVkZAIHD2QWAgIBDw8WAh8ABQQ1LjM4ZGQCCA9kFgQCAQ8PFgIfAAUFMy4zNzVkZAIDDw8WAh8ABQlCKyAoMy4zOClkZAIJD2QWBAIBDw8WAh8ABQUzLjA4M2RkAgMPDxYCHwAFCEIgKDMuMDgpZGQClQ0PZBYUZg8PFgIfAAUjQmVydHJhbSwgVGltb3RoeSAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDMwZGQCAw8PFgIfAAUGNzEzNzg2ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzEzNzg2HwAFL0NIRU0gMTczICAgLSBBdG1vc3BoZXJpYyBDaGVtaXN0cnkgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1AxMWRkAgMPDxYCHwAFATlkZAIED2QWAgIBDw8WAh8ABQEzZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTUwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDMuNTBkZAIID2QWBAIBDw8WAh8ABRAzLjMzMzMzMzMzMzMzMzMzZGQCAw8PFgIfAAUJQisgKDMuMzMpZGQCCQ9kFgICAQ8PFgIfAGVkZAKWDQ9kFhRmDw8WAh8ABSNEaWNrc29uLCBBbmRyZXcgR2lsbW9yZSAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MzBkZAIDDw8WAh8ABQY3MTM3OTBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MTM3OTAfAAUvQ0hFTSAxNzQgICAtIENoZW0gUHJpbiBvZiBNYXJpbmUgU3lzdGVtcyAgICAoQSlkZAICDw8WAh8ABQRTUDExZGQCAw8PFgIfAAUCNDhkZAIED2QWAgIBDw8WAh8ABQIxNmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ny41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3NS4wJWRkAgcPZBYCAgEPDxYCHwAFBDMuNDNkZAIID2QWBAIBDw8WAh8ABQMzLjJkZAIDDw8WAh8ABQhCICgzLjIwKWRkAgkPZBYEAgEPDxYCHwAFBTIuODc3ZGQCAw8PFgIfAAUJQi0gKDIuODgpZGQClw0PZBYUZg8PFgIfAAUjUGFlc2FuaSwgRnJhbmNlc2NvICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDMwZGQCAw8PFgIfAAUGNzEzNzkyZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzEzNzkyHwAFL0NIRU0gMTg1ICAgLSBJbnRyby9Db21wdXRhdGlvbmFsIENoZW1pc3RyeSAgKEEpZGQCAg8PFgIfAAUEU1AxMWRkAgMPDxYCHwAFATdkZAIED2QWAgIBDw8WAh8ABQEzZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ5LjE3ZGQCCA9kFgQCAQ8PFgIfAAUQMy42NjY2NjY2NjY2NjY2N2RkAgMPDxYCHwAFCUIrICgzLjY3KWRkAgkPZBYCAgEPDxYCHwBlZGQCmA0PZBYUZg8PFgIfAAUjQ3p3b3Jrb3dza2ksIEpvaG4gICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDMwZGQCAw8PFgIfAAUGNzEzNzkzZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzEzNzkzHwAFL0NIRU0gMTg4ICAgLSBDYXBzdG9uZSBTZW0gaW4gU2NpZW5jZSBFZHVjdG4gKEEpZGQCAg8PFgIfAAUEU1AxMWRkAgMPDxYCHwAFAThkZAIED2QWAgIBDw8WAh8ABQE1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQzLjcwZGQCCA9kFgQCAQ8PFgIfAAUDMy42ZGQCAw8PFgIfAAUJQisgKDMuNjApZGQCCQ9kFgICAQ8PFgIfAGVkZAKZDQ9kFhRmDw8WAh8ABSNUZXpjYW4sIEZhaWsgICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MzBkZAIDDw8WAh8ABQY3MTM1MTlkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MTM1MTkfAAUtQ0hFTSA2QSAgLSBHZW5lcmFsIENoZW1pc3RyeSBJICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1AxMWRkAgMPDxYCHwAFAzE5NGRkAgQPZBYCAgEPDxYCHwAFAzEzNGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NS41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NC4wJWRkAgcPZBYCAgEPDxYCHwAFBDcuNTBkZAIID2QWBAIBDw8WAh8ABRAzLjE0NTAzODE2NzkzODkzZGQCAw8PFgIfAAUIQiAoMy4xNSlkZAIJD2QWBAIBDw8WAh8ABQUyLjQxN2RkAgMPDxYCHwAFCUMrICgyLjQyKWRkApoND2QWFGYPDxYCHwAFI0Nyb3dlbGwsIEpvaG4gRSAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQzMGRkAgMPDxYCHwAFBjcxMzUzMGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcxMzUzMB8ABS1DSEVNIDZCICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IElJICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRTUDExZGQCAw8PFgIfAAUDMzQ3ZGQCBA9kFgICAQ8PFgIfAAUDMTI4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc1LjglZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTU3LjAlZGQCBw9kFgICAQ8PFgIfAAUENy42N2RkAggPZBYEAgEPDxYCHwAFEDMuMDM0MTg4MDM0MTg4MDNkZAIDDw8WAh8ABQhCICgzLjAzKWRkAgkPZBYEAgEPDxYCHwAFBDIuNTVkZAIDDw8WAh8ABQlDKyAoMi41NSlkZAKbDQ9kFhRmDw8WAh8ABSNDcm93ZWxsLCBKb2huIEUgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MzBkZAIDDw8WAh8ABQY3MTM1NDBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MTM1NDAfAAUtQ0hFTSA2QiAgLSBHZW5lcmFsIENoZW1pc3RyeSBJSSAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUEU1AxMWRkAgMPDxYCHwAFAzMwMGRkAgQPZBYCAgEPDxYCHwAFAzEyMGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3NS45JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU1OC42JWRkAgcPZBYCAgEPDxYCHwAFBDguMzRkZAIID2QWBAIBDw8WAh8ABRAyLjk0OTU3OTgzMTkzMjc3ZGQCAw8PFgIfAAUJQi0gKDIuOTUpZGQCCQ9kFgQCAQ8PFgIfAAUEMi41NWRkAgMPDxYCHwAFCUMrICgyLjU1KWRkApwND2QWFGYPDxYCHwAFI0hvZWdlciwgQ2FybCAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQzMGRkAgMPDxYCHwAFBjcxMzU1MGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcxMzU1MB8ABS1DSEVNIDZDICAtIEdlbmVyYWwgQ2hlbWlzdHJ5ICBJSUkgICAgICAgICAoQSlkZAICDw8WAh8ABQRTUDExZGQCAw8PFgIfAAUDMjI3ZGQCBA9kFgICAQ8PFgIfAAUDMTA0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkzLjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg3LjQlZGQCBw9kFgICAQ8PFgIfAAUENy41NWRkAggPZBYEAgEPDxYCHwAFEDMuMTU0NjM5MTc1MjU3NzNkZAIDDw8WAh8ABQhCICgzLjE1KWRkAgkPZBYEAgEPDxYCHwAFBTIuOTc5ZGQCAw8PFgIfAAUJQi0gKDIuOTgpZGQCnQ0PZBYUZg8PFgIfAAUjQnJ5ZGdlcywgU3RhY2V5ICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDMwZGQCAw8PFgIfAAUGNzEzNTYwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzEzNTYwHwAFLUNIRU0gNkMgIC0gR2VuZXJhbCBDaGVtaXN0cnkgIElJSSAgICAgICAgIChCKWRkAgIPDxYCHwAFBFNQMTFkZAIDDw8WAh8ABQMzNjlkZAIED2QWAgIBDw8WAh8ABQMxNTNkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTIuMSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODYuMiVkZAIHD2QWAgIBDw8WAh8ABQQ2Ljk2ZGQCCA9kFgQCAQ8PFgIfAAUPMy4zODQxMDU5NjAyNjQ5ZGQCAw8PFgIfAAUJQisgKDMuMzgpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4wNjlkZAIDDw8WAh8ABQhCICgzLjA3KWRkAp4ND2QWFGYPDxYCHwAFI0dob3NoLCBHb3VyaXNhbmthciAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQzMGRkAgMPDxYCHwAFBjcxMzU3MGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcxMzU3MB8ABS1DSEVNIDZDICAtIEdlbmVyYWwgQ2hlbWlzdHJ5ICBJSUkgICAgICAgICAoQylkZAICDw8WAh8ABQRTUDExZGQCAw8PFgIfAAUDMTQ0ZGQCBA9kFgICAQ8PFgIfAAUCNzFkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODIuOSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFMzcuMSVkZAIHD2QWAgIBDw8WAh8ABQQ0Ljg0ZGQCCA9kFgQCAQ8PFgIfAAUQMy4zNTcxNDI4NTcxNDI4NmRkAgMPDxYCHwAFCUIrICgzLjM2KWRkAgkPZBYEAgEPDxYCHwAFBTIuNTQ2ZGQCAw8PFgIfAAUJQysgKDIuNTUpZGQCnw0PZBYUZg8PFgIfAAUjSm9obnNvbiwgQ2hyaXN0aW5hIEEgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDMwZGQCAw8PFgIfAAUGNzEzNTgxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzEzNTgxHwAFLUNIRU0gNkMgIC0gR2VuZXJhbCBDaGVtaXN0cnkgIElJSSAgICAgICAgIChEKWRkAgIPDxYCHwAFBFNQMTFkZAIDDw8WAh8ABQMzNTJkZAIED2QWAgIBDw8WAh8ABQMxNzlkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODcuNiVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTUuNSVkZAIHD2QWAgIBDw8WAh8ABQQ3LjY0ZGQCCA9kFgQCAQ8PFgIfAAUQMy4yNjcwNDU0NTQ1NDU0NWRkAgMPDxYCHwAFCEIgKDMuMjcpZGQCCQ9kFgQCAQ8PFgIfAAUFMi45ODJkZAIDDw8WAh8ABQlCLSAoMi45OClkZAKgDQ9kFhRmDw8WAh8ABSNLdWJpYWssIENsaWZmb3JkIFBhdWwgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MzBkZAIDDw8WAh8ABQY3MTM1OTFkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MTM1OTEfAAUtQ0hFTSA2Q0ggLSBIb25vcnMgR2VuZXJhbCBDaGVtaXN0cnkgSUlJICAgKEEpZGQCAg8PFgIfAAUEU1AxMWRkAgMPDxYCHwAFAjczZGQCBA9kFgICAQ8PFgIfAAUCNDRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzkuNSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTAuOSVkZAIHD2QWAgIBDw8WAh8ABQQ2LjQ1ZGQCCA9kFgQCAQ8PFgIfAAUQMy41OTA5MDkwOTA5MDkwOWRkAgMPDxYCHwAFCUIrICgzLjU5KWRkAgkPZBYEAgEPDxYCHwAFBTMuMzM5ZGQCAw8PFgIfAAUJQisgKDMuMzQpZGQCoQ0PZBYUZg8PFgIfAAUjQmVybmlvbGxlcywgU2FuZHJpbmUgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDMwZGQCAw8PFgIfAAUGNzEzNTk1ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzEzNTk1HwAFLUNIRU0gN0wgIC0gR2VuZXJhbCBDaGVtaXN0cnkgTGFib3JhdG9yeSAgIChBKWRkAgIPDxYCHwAFBFNQMTFkZAIDDw8WAh8ABQMyNjdkZAIED2QWAgIBDw8WAh8ABQMxMTZkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzYuNyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODQuMyVkZAIHD2QWAgIBDw8WAh8ABQQ4Ljg4ZGQCCA9kFgQCAQ8PFgIfAAUQMy4zNjUyMTczOTEzMDQzNWRkAgMPDxYCHwAFCUIrICgzLjM3KWRkAgkPZBYEAgEPDxYCHwAFBTIuODA0ZGQCAw8PFgIfAAUJQi0gKDIuODApZGQCog0PZBYUZg8PFgIfAAUjQmVybmlvbGxlcywgU2FuZHJpbmUgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDMwZGQCAw8PFgIfAAUGNzEzNjEwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzEzNjEwHwAFLUNIRU0gN0wgIC0gR2VuZXJhbCBDaGVtaXN0cnkgTGFib3JhdG9yeSAgIChCKWRkAgIPDxYCHwAFBFNQMTFkZAIDDw8WAh8ABQMyNjlkZAIED2QWAgIBDw8WAh8ABQMxMDZkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODcuNiVkZAIHD2QWAgIBDw8WAh8ABQQ4LjEwZGQCCA9kFgQCAQ8PFgIfAAUQMy4yNTk2MTUzODQ2MTUzOGRkAgMPDxYCHwAFCEIgKDMuMjYpZGQCCQ9kFgQCAQ8PFgIfAAUFMi44MDRkZAIDDw8WAh8ABQlCLSAoMi44MClkZAKjDQ9kFhRmDw8WAh8ABSNDb2hlbiwgU2V0aCBNICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MzBkZAIDDw8WAh8ABQY3MTYwMTNkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MTYwMTMfAAUuQ0hFTSA4NyAgIC0gRnJlc2htYW4gU2VtaW5hciAgICAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNQMTFkZAIDDw8WAh8ABQIxMWRkAgQPZBYCAgEPDxYCHwAFATVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDAuNTBkZAIID2QWAgIBDw8WAh8AZWRkAgkPZBYCAgEPDxYCHwBlZGQCpA0PZBYUZg8PFgIfAAUjVHVrZXksIFJvYmVydCBIICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDMwZGQCAw8PFgIfAAUGNzEzNjM5ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzEzNjM5HwAFLkNIRU0gOTIgICAtIFVuZGVyZ3JhZCBQaGFybWFjb2xvZ3kgU2VtaW5hciAoQSlkZAICDw8WAh8ABQRTUDExZGQCAw8PFgIfAAUDMTg3ZGQCBA9kFgICAQ8PFgIfAAUCNzhkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzkuNyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODcuOCVkZAIHD2QWAgIBDw8WAh8ABQQwLjc5ZGQCCA9kFgQCAQ8PFgIfAAUBNGRkAgMPDxYCHwAFCEEgKDQuMDApZGQCCQ9kFgICAQ8PFgIfAGVkZAKlDQ9kFhRmDw8WAh8ABSNDendvcmtvd3NraSwgSm9obiAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MzBkZAIDDw8WAh8ABQY3MTM2NDBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MTM2NDAfAAUuQ0hFTSA5NiAgIC0gSW50cm9kdWN0biB0byBUZWFjaGluZyBTY2llbmNlIChBKWRkAgIPDxYCHwAFBFNQMTFkZAIDDw8WAh8ABQIxNWRkAgQPZBYCAgEPDxYCHwAFAjEwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQzLjEwZGQCCA9kFgQCAQ8PFgIfAAUQMy40NDQ0NDQ0NDQ0NDQ0NGRkAgMPDxYCHwAFCUIrICgzLjQ0KWRkAgkPZBYCAgEPDxYCHwBlZGQCpg0PZBYUZg8PFgIfAAUjRmVuZywgRGEgRmVpICAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDIwZGQCAw8PFgIfAAUGNzA1MTQxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzA1MTQxHwAFL0NIRU0gMTAwQSAgLSBBbmFseXRpY2FsIENoZW0gTGFiICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEV0kxMWRkAgMPDxYCHwAFAjc2ZGQCBA9kFgICAQ8PFgIfAAUCMzlkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNTEuMyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNTkuMCVkZAIHD2QWAgIBDw8WAh8ABQUxMy40N2RkAggPZBYEAgEPDxYCHwAFATNkZAIDDw8WAh8ABQhCICgzLjAwKWRkAgkPZBYEAgEPDxYCHwAFBTMuMTYxZGQCAw8PFgIfAAUIQiAoMy4xNilkZAKnDQ9kFhRmDw8WAh8ABSNQb21lcm95LCBSb2JlcnQgUy4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MjBkZAIDDw8WAh8ABQY3MDUxNDhkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MDUxNDgfAAUvQ0hFTSAxMDBCICAtIEZ1bmRhbWVudGxzL0luc3RydW1lbnRsIEFuYWx5cyAoQSlkZAICDw8WAh8ABQRXSTExZGQCAw8PFgIfAAUCMjFkZAIED2QWAgIBDw8WAh8ABQIxM2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU2OS4yJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NC42JWRkAgcPZBYCAgEPDxYCHwAFBDYuMTlkZAIID2QWBAIBDw8WAh8ABRAzLjIzMDc2OTIzMDc2OTIzZGQCAw8PFgIfAAUIQiAoMy4yMylkZAIJD2QWBAIBDw8WAh8ABQUzLjEzNWRkAgMPDxYCHwAFCEIgKDMuMTQpZGQCqA0PZBYUZg8PFgIfAAUjUG9tZXJveSwgUm9iZXJ0IFMuICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDIwZGQCAw8PFgIfAAUGNzA1MTQ5ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzA1MTQ5HwAFL0NIRU0gMTAwQkwgLSBJbnN0cnVtZW50YWwgQW5hbHlzaXMgTGFiICAgICAgKEEpZGQCAg8PFgIfAAUEV0kxMWRkAgMPDxYCHwAFAjIwZGQCBA9kFgICAQ8PFgIfAAUCMTNkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzUuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODMuMyVkZAIHD2QWAgIBDw8WAh8ABQQ4LjUwZGQCCA9kFgQCAQ8PFgIfAAUQMy4zNjM2MzYzNjM2MzYzNmRkAgMPDxYCHwAFCUIrICgzLjM2KWRkAgkPZBYEAgEPDxYCHwAFBDMuNDlkZAIDDw8WAh8ABQlCKyAoMy40OSlkZAKpDQ9kFhRmDw8WAh8ABSNWaWFkaXUsIEhlY3RvciAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MjBkZAIDDw8WAh8ABQY3MDUxNTBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MDUxNTAfAAUvQ0hFTSAxMDQgICAtIEludHJvIHRvIFgtcmF5IENyeXN0YWxsb2dyYXBoeSAoQSlkZAICDw8WAh8ABQRXSTExZGQCAw8PFgIfAAUCMTdkZAIED2QWAgIBDw8WAh8ABQIxMWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU2My42JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4MS44JWRkAgcPZBYCAgEPDxYCHwAFBDUuNzdkZAIID2QWBAIBDw8WAh8ABQMzLjFkZAIDDw8WAh8ABQhCICgzLjEwKWRkAgkPZBYCAgEPDxYCHwBlZGQCqg0PZBYUZg8PFgIfAAUjVGF1YmVyLCBNaWNoYWVsICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDIwZGQCAw8PFgIfAAUGNzA1MTUxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzA1MTUxHwAFL0NIRU0gMTA1QSAgLSBQaHlzaWNhbCBDaGVtaXN0cnkgTGFib3JhdG9yeSAgKEEpZGQCAg8PFgIfAAUEV0kxMWRkAgMPDxYCHwAFAjM2ZGQCBA9kFgICAQ8PFgIfAAUCMjZkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODguNSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODguNSVkZAIHD2QWAgIBDw8WAh8ABQQ5LjUwZGQCCA9kFgQCAQ8PFgIfAAUEMy4xNmRkAgMPDxYCHwAFCEIgKDMuMTYpZGQCCQ9kFgQCAQ8PFgIfAAUFMi42NzhkZAIDDw8WAh8ABQlDKyAoMi42OClkZAKrDQ9kFhRmDw8WAh8ABSNQaWNraGFtLCBLYXRobGVlbiBNICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MjBkZAIDDw8WAh8ABQY3MDUxNTZkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MDUxNTYfAAUvQ0hFTSAxMDggICAtIFByb3RlaW4gQmlvY2hlbWlzdHJ5IExhYiAgICAgICAoQSlkZAICDw8WAh8ABQRXSTExZGQCAw8PFgIfAAUCMzJkZAIED2QWAgIBDw8WAh8ABQE5ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg4LjklZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBTExLjE3ZGQCCA9kFgQCAQ8PFgIfAAUQMy4zMzMzMzMzMzMzMzMzM2RkAgMPDxYCHwAFCUIrICgzLjMzKWRkAgkPZBYEAgEPDxYCHwAFBTMuMTQ2ZGQCAw8PFgIfAAUIQiAoMy4xNSlkZAKsDQ9kFhRmDw8WAh8ABSNQaWNraGFtLCBLYXRobGVlbiBNICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MjBkZAIDDw8WAh8ABQY3MDUxNTlkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MDUxNTkfAAUvQ0hFTSAxMDggICAtIFByb3RlaW4gQmlvY2hlbWlzdHJ5IExhYiAgICAgICAoQilkZAICDw8WAh8ABQRXSTExZGQCAw8PFgIfAAUCMzRkZAIED2QWAgIBDw8WAh8ABQIxN2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3Ni41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ5LjMyZGQCCA9kFgQCAQ8PFgIfAAUGMy41NjI1ZGQCAw8PFgIfAAUJQisgKDMuNTYpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4xNDZkZAIDDw8WAh8ABQhCICgzLjE1KWRkAq0ND2QWFGYPDxYCHwAFI1Rvb3IsIE5hdnRlaiAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQyMGRkAgMPDxYCHwAFBjcwNTE2MmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcwNTE2Mh8ABS9DSEVNIDExNEEgIC0gQmlvY2hlbWljYWwgU3RydWN0dXJlJkZ1bmN0aW9uIChBKWRkAgIPDxYCHwAFBFdJMTFkZAIDDw8WAh8ABQI4NmRkAgQPZBYCAgEPDxYCHwAFAjQ4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg5LjYlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgzLjMlZGQCBw9kFgICAQ8PFgIfAAUENy4yOWRkAggPZBYEAgEPDxYCHwAFEDMuNDg5MzYxNzAyMTI3NjZkZAIDDw8WAh8ABQlCKyAoMy40OSlkZAIJD2QWBAIBDw8WAh8ABQUyLjk4M2RkAgMPDxYCHwAFCUItICgyLjk4KWRkAq4ND2QWFGYPDxYCHwAFI1dhbmcsIFdlaSAgICAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQyMGRkAgMPDxYCHwAFBjcwNTE2NmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcwNTE2Nh8ABS9DSEVNIDExNEIgIC0gQmlvY2hlbSBFbmVyZ2V0aWNzJk1ldGFib2xpc20gIChBKWRkAgIPDxYCHwAFBFdJMTFkZAIDDw8WAh8ABQMxODVkZAIED2QWAgIBDw8WAh8ABQI5MWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3OS4xJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU1Ny44JWRkAgcPZBYCAgEPDxYCHwAFBDguNjZkZAIID2QWBAIBDw8WAh8ABRAzLjM4NjM2MzYzNjM2MzY0ZGQCAw8PFgIfAAUJQisgKDMuMzkpZGQCCQ9kFgQCAQ8PFgIfAAUFMi43OTJkZAIDDw8WAh8ABQlCLSAoMi43OSlkZAKvDQ9kFhRmDw8WAh8ABSNOYWthZ2F3YSwgVGVydW5hZ2EgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MjBkZAIDDw8WAh8ABQY3MDUxMjhkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MDUxMjgfAAUuQ0hFTSAxMiAgIC0gTW9sZWN1bGVzIGFuZCBSZWFjdGlvbnMgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMTFkZAIDDw8WAh8ABQMxNThkZAIED2QWAgIBDw8WAh8ABQI2M2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU1Ny4xJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU1Mi40JWRkAgcPZBYCAgEPDxYCHwAFBDQuNDdkZAIID2QWBAIBDw8WAh8ABQ8zLjEwMjU2NDEwMjU2NDFkZAIDDw8WAh8ABQhCICgzLjEwKWRkAgkPZBYEAgEPDxYCHwAFBTMuMjkzZGQCAw8PFgIfAAUIQiAoMy4yOSlkZAKwDQ9kFhRmDw8WAh8ABSNIZW5kcmlja3NvbiwgRGF2aWQgTiAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MjBkZAIDDw8WAh8ABQY3MDUxNzVkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MDUxNzUfAAUvQ0hFTSAxMjBCICAtIElub3JnYW5pYyBDaGVtaXN0cnkgSUkgICAgICAgICAoQSlkZAICDw8WAh8ABQRXSTExZGQCAw8PFgIfAAUCNzZkZAIED2QWAgIBDw8WAh8ABQIzOWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4OS41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Mi4xJWRkAgcPZBYCAgEPDxYCHwAFBDMuNzhkZAIID2QWBAIBDw8WAh8ABRAzLjY1Nzg5NDczNjg0MjExZGQCAw8PFgIfAAUJQisgKDMuNjYpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4zNDRkZAIDDw8WAh8ABQlCKyAoMy4zNClkZAKxDQ9kFhRmDw8WAh8ABSNTYWlsb3IsIE1pY2hhZWwgSm9zZXBoICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MjBkZAIDDw8WAh8ABQY3MDUxODBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MDUxODAfAAUvQ0hFTSAxMjMgICAtIEFkdmFuY2VkIElub3JnYW5pYyBDaGVtIExhYiAgICAoQSlkZAICDw8WAh8ABQRXSTExZGQCAw8PFgIfAAUCMTBkZAIED2QWAgIBDw8WAh8ABQE4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ2LjI1ZGQCCA9kFgQCAQ8PFgIfAAUQMy40Mjg1NzE0Mjg1NzE0M2RkAgMPDxYCHwAFCUIrICgzLjQzKWRkAgkPZBYCAgEPDxYCHwBlZGQCsg0PZBYUZg8PFgIfAAUjQ3Jvd2VsbCwgSm9obiBFICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDIwZGQCAw8PFgIfAAUGNzA1MTgxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzA1MTgxHwAFL0NIRU0gMTI2ICAgLSBQaHlzaWNhbCBDaGVtaXN0cnkgICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEV0kxMWRkAgMPDxYCHwAFAzE2NGRkAgQPZBYCAgEPDxYCHwAFAjY4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTU1LjklZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTY3LjYlZGQCBw9kFgICAQ8PFgIfAAUEOC4yMWRkAggPZBYEAgEPDxYCHwAFEDMuMDc2OTIzMDc2OTIzMDhkZAIDDw8WAh8ABQhCICgzLjA4KWRkAgkPZBYEAgEPDxYCHwAFBDIuNjFkZAIDDw8WAh8ABQlDKyAoMi42MSlkZAKzDQ9kFhRmDw8WAh8ABSNQYWVzYW5pLCBGcmFuY2VzY28gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MjBkZAIDDw8WAh8ABQY3MDUxOTBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MDUxOTAfAAUvQ0hFTSAxMzEgICAtIFBoeXNpY2FsIENoZW1pc3RyeSAgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRXSTExZGQCAw8PFgIfAAUDMTI3ZGQCBA9kFgICAQ8PFgIfAAUCNjRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzMuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODEuMCVkZAIHD2QWAgIBDw8WAh8ABQQ3LjkyZGQCCA9kFgQCAQ8PFgIfAAUQMy4wODMzMzMzMzMzMzMzM2RkAgMPDxYCHwAFCEIgKDMuMDgpZGQCCQ9kFgQCAQ8PFgIfAAUFMi41NjNkZAIDDw8WAh8ABQlDKyAoMi41NilkZAK0DQ9kFhRmDw8WAh8ABSNHaWFubmVzY2hpLCBOYXRoYW4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MjBkZAIDDw8WAh8ABQY3MDUxOTVkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MDUxOTUfAAUvQ0hFTSAxNDBBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRXSTExZGQCAw8PFgIfAAUDMTU0ZGQCBA9kFgICAQ8PFgIfAAUCNjBkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODguMyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTUuMCVkZAIHD2QWAgIBDw8WAh8ABQQ4LjM3ZGQCCA9kFgQCAQ8PFgIfAAUQMy4xNTI1NDIzNzI4ODEzNmRkAgMPDxYCHwAFCEIgKDMuMTUpZGQCCQ9kFgQCAQ8PFgIfAAUFMi40NzdkZAIDDw8WAh8ABQlDKyAoMi40OClkZAK1DQ9kFhRmDw8WAh8ABSNBbGJpemF0aSwgS2ltIEYuICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MjBkZAIDDw8WAh8ABQY3MDUyMDZkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MDUyMDYfAAUvQ0hFTSAxNDBBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQilkZAICDw8WAh8ABQRXSTExZGQCAw8PFgIfAAUDMzEzZGQCBA9kFgICAQ8PFgIfAAUDMTQzZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg5LjQlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk3LjklZGQCBw9kFgICAQ8PFgIfAAUEOC4wNmRkAggPZBYEAgEPDxYCHwAFEDMuMTY2NjY2NjY2NjY2NjdkZAIDDw8WAh8ABQhCICgzLjE3KWRkAgkPZBYEAgEPDxYCHwAFBTIuNTIyZGQCAw8PFgIfAAUJQysgKDIuNTIpZGQCtg0PZBYUZg8PFgIfAAUjQWxiaXphdGksIEtpbSBGLiAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDIwZGQCAw8PFgIfAAUGNzA1MjE3ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzA1MjE3HwAFL0NIRU0gMTQwQSAgLSBPcmdhbmljIENoZW1pc3RyeSBJICAgICAgICAgICAgKEMpZGQCAg8PFgIfAAUEV0kxMWRkAgMPDxYCHwAFAzMyMGRkAgQPZBYCAgEPDxYCHwAFAzEzMWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4OS4yJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ3LjgyZGQCCA9kFgQCAQ8PFgIfAAUQMy4xMzk1MzQ4ODM3MjA5M2RkAgMPDxYCHwAFCEIgKDMuMTQpZGQCCQ9kFgQCAQ8PFgIfAAUFMi41MjJkZAIDDw8WAh8ABQlDKyAoMi41MilkZAK3DQ9kFhRmDw8WAh8ABSNCdXJrYXJ0LCBNaWNoYWVsIEQgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MjBkZAIDDw8WAh8ABQY3MDUyMjhkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MDUyMjgfAAUvQ0hFTSAxNDBCICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IElJICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRXSTExZGQCAw8PFgIfAAUDMzc5ZGQCBA9kFgICAQ8PFgIfAAUDMjQxZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgyLjglZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk3LjAlZGQCBw9kFgICAQ8PFgIfAAUEOS4xNmRkAggPZBYEAgEPDxYCHwAFEDMuMTY0NTAyMTY0NTAyMTZkZAIDDw8WAh8ABQhCICgzLjE2KWRkAgkPZBYEAgEPDxYCHwAFBTIuNzUyZGQCAw8PFgIfAAUJQi0gKDIuNzUpZGQCuA0PZBYUZg8PFgIfAAUjVGhlb2RvcmFraXMsIEVtbWFub3VpbCAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDIwZGQCAw8PFgIfAAUGNzA1MjM5ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzA1MjM5HwAFL0NIRU0gMTQwQiAgLSBPcmdhbmljIENoZW1pc3RyeSBJSSAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUEV0kxMWRkAgMPDxYCHwAFAzM0MGRkAgQPZBYCAgEPDxYCHwAFAzE2NWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NC43JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MC43JWRkAgcPZBYCAgEPDxYCHwAFBDguNTJkZAIID2QWBAIBDw8WAh8ABRAzLjA2Mjg5MzA4MTc2MTAxZGQCAw8PFgIfAAUIQiAoMy4wNilkZAIJD2QWBAIBDw8WAh8ABQUyLjc5N2RkAgMPDxYCHwAFCUItICgyLjgwKWRkArkND2QWFGYPDxYCHwAFI1doaXRlc2VsbCwgSmFtZXMgSy4gICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQyMGRkAgMPDxYCHwAFBjcwNTI1MGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcwNTI1MB8ABS9DSEVNIDE0MEIgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSUkgICAgICAgICAgIChDKWRkAgIPDxYCHwAFBFdJMTFkZAIDDw8WAh8ABQMxNzNkZAIED2QWAgIBDw8WAh8ABQI3M2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4OC45JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU2My40JWRkAgcPZBYCAgEPDxYCHwAFBDcuOTJkZAIID2QWBAIBDw8WAh8ABRAzLjQzNjYxOTcxODMwOTg2ZGQCAw8PFgIfAAUJQisgKDMuNDQpZGQCCQ9kFgQCAQ8PFgIfAAUFMi42MDdkZAIDDw8WAh8ABQlDKyAoMi42MSlkZAK6DQ9kFhRmDw8WAh8ABSNXZWl6bWFuLCBIYWltICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MjBkZAIDDw8WAh8ABQY3MDUyNjFkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MDUyNjEfAAUvQ0hFTSAxNDBCSCAtIEhvbm9ycyBPcmdhbmljIENoZW1pc3RyeSAgICAgICAoQSlkZAICDw8WAh8ABQRXSTExZGQCAw8PFgIfAAUCNDhkZAIED2QWAgIBDw8WAh8ABQIzOGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUENy4wM2RkAggPZBYEAgEPDxYCHwAFEDMuNjMxNTc4OTQ3MzY4NDJkZAIDDw8WAh8ABQlCKyAoMy42MylkZAIJD2QWBAIBDw8WAh8ABQUzLjc0OGRkAgMPDxYCHwAFCUEtICgzLjc1KWRkArsND2QWFGYPDxYCHwAFI0plbm5pbmdzLCBQYXRyaWNpYSBBLiAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQyMGRkAgMPDxYCHwAFBjcwNTI2NWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcwNTI2NR8ABS9DSEVNIDE0MEMgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSUlJICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMTFkZAIDDw8WAh8ABQMzMzFkZAIED2QWAgIBDw8WAh8ABQMxMzBkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODMuOCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNDUuNCVkZAIHD2QWAgIBDw8WAh8ABQQ2LjM5ZGQCCA9kFgQCAQ8PFgIfAAUQMy4zMTQ1MTYxMjkwMzIyNmRkAgMPDxYCHwAFCUIrICgzLjMxKWRkAgkPZBYEAgEPDxYCHwAFBTIuOTgyZGQCAw8PFgIfAAUJQi0gKDIuOTgpZGQCvA0PZBYUZg8PFgIfAAUjVGVybmFuc2t5LCBSb2JlcnQgSi4gICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDIwZGQCAw8PFgIfAAUGNzA1Mjc2ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzA1Mjc2HwAFL0NIRU0gMTQzQSAgLSBPcmdhbmljIENoZW1pc3RyeSBMYWJvcmF0b3J5ICAgKEEpZGQCAg8PFgIfAAUEV0kxMWRkAgMPDxYCHwAFAzQyOGRkAgQPZBYCAgEPDxYCHwAFAzIxNGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4MC41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4My4zJWRkAgcPZBYCAgEPDxYCHwAFBDguNDBkZAIID2QWBAIBDw8WAh8ABRAzLjE1ODQxNTg0MTU4NDE2ZGQCAw8PFgIfAAUIQiAoMy4xNilkZAIJD2QWBAIBDw8WAh8ABQUzLjEwM2RkAgMPDxYCHwAFCEIgKDMuMTApZGQCvQ0PZBYUZg8PFgIfAAUjV2Vpem1hbiwgSGFpbSAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDIwZGQCAw8PFgIfAAUGNzA1Mjk5ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzA1Mjk5HwAFL0NIRU0gMTQzQUggLSBIb25vcnMgT3JnYW5pYyBDaGVtaXN0cnkgTGFiICAgKEEpZGQCAg8PFgIfAAUEV0kxMWRkAgMPDxYCHwAFAjUyZGQCBA9kFgICAQ8PFgIfAAUCMzVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTEuNCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTQuMyVkZAIHD2QWAgIBDw8WAh8ABQQ5LjAxZGQCCA9kFgQCAQ8PFgIfAAUQMy41Mjk0MTE3NjQ3MDU4OGRkAgMPDxYCHwAFCUIrICgzLjUzKWRkAgkPZBYEAgEPDxYCHwAFBTMuMzQ5ZGQCAw8PFgIfAAUJQisgKDMuMzUpZGQCvg0PZBYUZg8PFgIfAAUjVGVybmFuc2t5LCBSb2JlcnQgSi4gICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDIwZGQCAw8PFgIfAAUGNzA1MzA0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzA1MzA0HwAFL0NIRU0gMTQzQiAgLSBPcmdhbmljIENoZW1pc3RyeSBMYWJvcmF0b3J5ICAgKEEpZGQCAg8PFgIfAAUEV0kxMWRkAgMPDxYCHwAFAjc1ZGQCBA9kFgICAQ8PFgIfAAUCNDRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODMuMyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODMuMyVkZAIHD2QWAgIBDw8WAh8ABQQ5LjM4ZGQCCA9kFgQCAQ8PFgIfAAUQMy4xMTYyNzkwNjk3Njc0NGRkAgMPDxYCHwAFCEIgKDMuMTIpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4yMDNkZAIDDw8WAh8ABQhCICgzLjIwKWRkAr8ND2QWFGYPDxYCHwAFI1BvbWVyb3ksIFJvYmVydCBTLiAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQyMGRkAgMPDxYCHwAFBjcwNTMxMGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcwNTMxMB8ABS9DSEVNIDE0OUIgIC0gRW52aXJvbm1lbnRhbCBDaGVtaXN0cnkgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMTFkZAIDDw8WAh8ABQIyNWRkAgQPZBYCAgEPDxYCHwAFAjEyZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ0LjgzZGQCCA9kFgQCAQ8PFgIfAAUQMy44MzMzMzMzMzMzMzMzM2RkAgMPDxYCHwAFCUEtICgzLjgzKWRkAgkPZBYEAgEPDxYCHwAFBTMuNDcxZGQCAw8PFgIfAAUJQisgKDMuNDcpZGQCwA0PZBYUZg8PFgIfAAUjTW9vcmUsIEFteSBMZWEgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDIwZGQCAw8PFgIfAAUGNzA1MTM3ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzA1MTM3HwAFLkNIRU0gMTUgICAtIENoZW1pc3RyeSBvZiB0aGUgVW5pdmVyc2UgICAgICAoQSlkZAICDw8WAh8ABQRXSTExZGQCAw8PFgIfAAUCNTlkZAIED2QWAgIBDw8WAh8ABQIzMWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3OS4zJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4OS43JWRkAgcPZBYCAgEPDxYCHwAFBDMuMzBkZAIID2QWBAIBDw8WAh8ABRAzLjU4MzMzMzMzMzMzMzMzZGQCAw8PFgIfAAUJQisgKDMuNTgpZGQCCQ9kFgQCAQ8PFgIfAAUFMi45NzRkZAIDDw8WAh8ABQlCLSAoMi45NylkZALBDQ9kFhRmDw8WAh8ABSNOaWNvbGFvdSwgS3lyaWFjb3MgQyAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MjBkZAIDDw8WAh8ABQY3MDUzMTFkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MDUzMTEfAAUvQ0hFTSAxNTEgICAtIE1vbGVjdWxlcyBUaGF0IENoYW5nZWQgV29ybGQgICAoQSlkZAICDw8WAh8ABQRXSTExZGQCAw8PFgIfAAUCODZkZAIED2QWAgIBDw8WAh8ABQI1MWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ni4zJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Mi4yJWRkAgcPZBYCAgEPDxYCHwAFBDQuOThkZAIID2QWBAIBDw8WAh8ABQQzLjQyZGQCAw8PFgIfAAUJQisgKDMuNDIpZGQCCQ9kFgQCAQ8PFgIfAAUFMy40MjhkZAIDDw8WAh8ABQlCKyAoMy40MylkZALCDQ9kFhRmDw8WAh8ABSNZYW5nLCBKZXJyeSAgICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MjBkZAIDDw8WAh8ABQY3MDUzMTNkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MDUzMTMfAAUvQ0hFTSAxNTYgICAtIFN0cnVjdCZQcm9wZXJ0aWVzL09yZ2FuYyBNb2xlYyAoQSlkZAICDw8WAh8ABQRXSTExZGQCAw8PFgIfAAUCMjFkZAIED2QWAgIBDw8WAh8ABQIxMmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MS43JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ0LjUwZGQCCA9kFgQCAQ8PFgIfAAUQMy41NDU0NTQ1NDU0NTQ1NWRkAgMPDxYCHwAFCUIrICgzLjU1KWRkAgkPZBYEAgEPDxYCHwAFBTMuMDU1ZGQCAw8PFgIfAAUIQiAoMy4wNilkZALDDQ9kFhRmDw8WAh8ABSNCYWtlciwgVGltb3RoeSBTdGFubGV5ICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MjBkZAIDDw8WAh8ABQY3MDUzMTRkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MDUzMTQfAAUvQ0hFTSAxNjUgICAtIDNEIEVsY3Ryb24gTWljcm9zY29weS9NYWNyb21vbCAoQSlkZAICDw8WAh8ABQRXSTExZGQCAw8PFgIfAAUCMTFkZAIED2QWAgIBDw8WAh8ABQE3ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg1LjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg1LjclZGQCBw9kFgICAQ8PFgIfAAUENS4wN2RkAggPZBYEAgEPDxYCHwAFEDMuNzE0Mjg1NzE0Mjg1NzFkZAIDDw8WAh8ABQlBLSAoMy43MSlkZAIJD2QWAgIBDw8WAh8AZWRkAsQND2QWFGYPDxYCHwAFI1BvbWVyb3ksIFJvYmVydCBTLiAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQyMGRkAgMPDxYCHwAFBjcwNTMxMGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcwNTMxMB8ABS1DSEVNIDE3MiAtIEVudmlyb25tZW50YWwgQ2hlbWlzdHJ5ICAgICAgICAoQSlkZAICDw8WAh8ABQRXSTExZGQCAw8PFgIfAAUCMjVkZAIED2QWAgIBDw8WAh8ABQIxMmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUENC44M2RkAggPZBYEAgEPDxYCHwAFEDMuODMzMzMzMzMzMzMzMzNkZAIDDw8WAh8ABQlBLSAoMy44MylkZAIJD2QWBAIBDw8WAh8ABQUzLjQ3MWRkAgMPDxYCHwAFCUIrICgzLjQ3KWRkAsUND2QWFGYPDxYCHwAFI0N6d29ya293c2tpLCBKb2huICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQyMGRkAgMPDxYCHwAFBjcwODAxOGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcwODAxOB8ABS9DSEVNIDE4NyAgIC0gRm91bmRuIG9mIFRlYWNoJkxlYXJuIFNjaWVuY2UgIChCKWRkAgIPDxYCHwAFBFdJMTFkZAIDDw8WAh8ABQIxM2RkAgQPZBYCAgEPDxYCHwAFATdkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDIuNzlkZAIID2QWBAIBDw8WAh8ABRAzLjcxNDI4NTcxNDI4NTcxZGQCAw8PFgIfAAUJQS0gKDMuNzEpZGQCCQ9kFgICAQ8PFgIfAGVkZALGDQ9kFhRmDw8WAh8ABSNTaW5oYSwgQW1pdGFiaGEgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MjBkZAIDDw8WAh8ABQY3MDUwMDRkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MDUwMDQfAAUtQ0hFTSA2QSAgLSBHZW5lcmFsIENoZW1pc3RyeSBJICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEV0kxMWRkAgMPDxYCHwAFAzI3OWRkAgQPZBYCAgEPDxYCHwAFAzEzMmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NS4zJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU2NS45JWRkAgcPZBYCAgEPDxYCHwAFBDcuMjFkZAIID2QWBAIBDw8WAh8ABRAyLjkyMjQ4MDYyMDE1NTA0ZGQCAw8PFgIfAAUJQi0gKDIuOTIpZGQCCQ9kFgQCAQ8PFgIfAAUFMi4zNDJkZAIDDw8WAh8ABQlDKyAoMi4zNClkZALHDQ9kFhRmDw8WAh8ABSNIb2VnZXIsIENhcmwgICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MjBkZAIDDw8WAh8ABQY3MDUwMTRkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MDUwMTQfAAUtQ0hFTSA2QSAgLSBHZW5lcmFsIENoZW1pc3RyeSBJICAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUEV0kxMWRkAgMPDxYCHwAFAzMwN2RkAgQPZBYCAgEPDxYCHwAFAzE1NGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Ni4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5OC4wJWRkAgcPZBYCAgEPDxYCHwAFBDguMzNkZAIID2QWBAIBDw8WAh8ABRAyLjk2NjY2NjY2NjY2NjY3ZGQCAw8PFgIfAAUJQi0gKDIuOTcpZGQCCQ9kFgQCAQ8PFgIfAAUFMi43NzdkZAIDDw8WAh8ABQlCLSAoMi43OClkZALIDQ9kFhRmDw8WAh8ABSNUcm9nbGVyLCBXaWxsaWFtIEMgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MjBkZAIDDw8WAh8ABQY3MDUwMjRkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MDUwMjQfAAUtQ0hFTSA2QSAgLSBHZW5lcmFsIENoZW1pc3RyeSBJICAgICAgICAgICAgKEMpZGQCAg8PFgIfAAUEV0kxMWRkAgMPDxYCHwAFAzIzOWRkAgQPZBYCAgEPDxYCHwAFAzEyOWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4OC40JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ni4wJWRkAgcPZBYCAgEPDxYCHwAFBDYuODNkZAIID2QWBAIBDw8WAh8ABRAzLjE2MTI5MDMyMjU4MDY1ZGQCAw8PFgIfAAUIQiAoMy4xNilkZAIJD2QWBAIBDw8WAh8ABQUyLjg5NWRkAgMPDxYCHwAFCUItICgyLjkwKWRkAskND2QWFGYPDxYCHwAFI011bGxlciwgVWxyaWNoIEsuICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQyMGRkAgMPDxYCHwAFBjcwNTAzNGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcwNTAzNB8ABS1DSEVNIDZCICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IElJICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRXSTExZGQCAw8PFgIfAAUDMzA3ZGQCBA9kFgICAQ8PFgIfAAUDMTgzZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkxLjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc4LjklZGQCBw9kFgICAQ8PFgIfAAUENi4wNmRkAggPZBYEAgEPDxYCHwAFEDMuMjQxNzU4MjQxNzU4MjRkZAIDDw8WAh8ABQhCICgzLjI0KWRkAgkPZBYEAgEPDxYCHwAFBTIuNzkxZGQCAw8PFgIfAAUJQi0gKDIuNzkpZGQCyg0PZBYUZg8PFgIfAAUjQnJ5ZGdlcywgU3RhY2V5ICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDIwZGQCAw8PFgIfAAUGNzA1MDQ0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzA1MDQ0HwAFLUNIRU0gNkIgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSUkgICAgICAgICAgIChCKWRkAgIPDxYCHwAFBFdJMTFkZAIDDw8WAh8ABQMyMDVkZAIED2QWAgIBDw8WAh8ABQMxMDdkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODYuOCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTAuNyVkZAIHD2QWAgIBDw8WAh8ABQQ3LjM0ZGQCCA9kFgQCAQ8PFgIfAAUQMy4yOTkwNjU0MjA1NjA3NWRkAgMPDxYCHwAFCEIgKDMuMzApZGQCCQ9kFgQCAQ8PFgIfAAUFMi44MDNkZAIDDw8WAh8ABQlCLSAoMi44MClkZALLDQ9kFhRmDw8WAh8ABSNKb2huc29uLCBDaHJpc3RpbmEgQSAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MjBkZAIDDw8WAh8ABQY3MDUwNTRkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MDUwNTQfAAUtQ0hFTSA2QiAgLSBHZW5lcmFsIENoZW1pc3RyeSBJSSAgICAgICAgICAgKEMpZGQCAg8PFgIfAAUEV0kxMWRkAgMPDxYCHwAFAzM0OWRkAgQPZBYCAgEPDxYCHwAFAzE5M2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MS43JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5My44JWRkAgcPZBYCAgEPDxYCHwAFBDguNDJkZAIID2QWBAIBDw8WAh8ABRAzLjIwNDE4ODQ4MTY3NTM5ZGQCAw8PFgIfAAUIQiAoMy4yMClkZAIJD2QWBAIBDw8WAh8ABQUyLjkwM2RkAgMPDxYCHwAFCUItICgyLjkwKWRkAswND2QWFGYPDxYCHwAFI0tpbSwgSnVkeSBFLiAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQyMGRkAgMPDxYCHwAFBjcwNTA2NGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTcwNTA2NB8ABS1DSEVNIDZCICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IElJICAgICAgICAgICAoRClkZAICDw8WAh8ABQRXSTExZGQCAw8PFgIfAAUDMTU0ZGQCBA9kFgICAQ8PFgIfAAUDMTM3ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg5LjglZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgxLjglZGQCBw9kFgICAQ8PFgIfAAUENi4yNWRkAggPZBYEAgEPDxYCHwAFEDMuMTYyOTYyOTYyOTYyOTZkZAIDDw8WAh8ABQhCICgzLjE2KWRkAgkPZBYEAgEPDxYCHwAFBTIuNzQ0ZGQCAw8PFgIfAAUJQi0gKDIuNzQpZGQCzQ0PZBYUZg8PFgIfAAUjS3VtbWVsLCBBbmRyZXcgQyAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDIwZGQCAw8PFgIfAAUGNzA1MDc0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzA1MDc0HwAFLUNIRU0gNkIgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSUkgICAgICAgICAgIChFKWRkAgIPDxYCHwAFBFdJMTFkZAIDDw8WAh8ABQMzNjVkZAIED2QWAgIBDw8WAh8ABQMyOTZkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODEuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODIuMCVkZAIHD2QWAgIBDw8WAh8ABQQ4LjEwZGQCCA9kFgQCAQ8PFgIfAAUQMy4wMzUyMTEyNjc2MDU2M2RkAgMPDxYCHwAFCEIgKDMuMDQpZGQCCQ9kFgQCAQ8PFgIfAAUFMi42NDNkZAIDDw8WAh8ABQlDKyAoMi42NClkZALODQ9kFhRmDw8WAh8ABSNIb2VnZXIsIENhcmwgICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MjBkZAIDDw8WAh8ABQY3MDUwODRkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MDUwODQfAAUtQ0hFTSA2QkggLSBIb25vcnMgR2VuZXJhbCBDaGVtaXN0cnkgSUkgICAgKEEpZGQCAg8PFgIfAAUEV0kxMWRkAgMPDxYCHwAFAjk5ZGQCBA9kFgICAQ8PFgIfAAUCNjRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzAuMyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODcuNSVkZAIHD2QWAgIBDw8WAh8ABQQ3LjI5ZGQCCA9kFgQCAQ8PFgIfAAUQMy4zMDY0NTE2MTI5MDMyM2RkAgMPDxYCHwAFCUIrICgzLjMxKWRkAgkPZBYEAgEPDxYCHwAFBTMuMDI5ZGQCAw8PFgIfAAUIQiAoMy4wMylkZALPDQ9kFhRmDw8WAh8ABSNHaG9zaCwgUGFydGhvICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MjBkZAIDDw8WAh8ABQY3MDUwOTBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD03MDUwOTAfAAUtQ0hFTSA2QyAgLSBHZW5lcmFsIENoZW1pc3RyeSAgSUlJICAgICAgICAgKEEpZGQCAg8PFgIfAAUEV0kxMWRkAgMPDxYCHwAFAzIzOWRkAgQPZBYCAgEPDxYCHwAFAzEzMGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ni4yJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4MS4zJWRkAgcPZBYCAgEPDxYCHwAFBDYuMzNkZAIID2QWBAIBDw8WAh8ABRAzLjE0NTE2MTI5MDMyMjU4ZGQCAw8PFgIfAAUIQiAoMy4xNSlkZAIJD2QWBAIBDw8WAh8ABQQyLjQ3ZGQCAw8PFgIfAAUJQysgKDIuNDcpZGQC0A0PZBYUZg8PFgIfAAUjQmVybmlvbGxlcywgU2FuZHJpbmUgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDIwZGQCAw8PFgIfAAUGNzA1MTAwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzA1MTAwHwAFLUNIRU0gN0wgIC0gR2VuZXJhbCBDaGVtaXN0cnkgTGFib3JhdG9yeSAgIChBKWRkAgIPDxYCHwAFBFdJMTFkZAIDDw8WAh8ABQMyNTVkZAIED2QWAgIBDw8WAh8ABQMxMDdkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjcuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODUuOCVkZAIHD2QWAgIBDw8WAh8ABQQ4LjYxZGQCCA9kFgQCAQ8PFgIfAAUQMy40MDM4NDYxNTM4NDYxNWRkAgMPDxYCHwAFCUIrICgzLjQwKWRkAgkPZBYEAgEPDxYCHwAFBTIuODUzZGQCAw8PFgIfAAUJQi0gKDIuODUpZGQC0Q0PZBYUZg8PFgIfAAUjQmVybmlvbGxlcywgU2FuZHJpbmUgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDIwZGQCAw8PFgIfAAUGNzA1MTE1ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzA1MTE1HwAFLUNIRU0gN0wgIC0gR2VuZXJhbCBDaGVtaXN0cnkgTGFib3JhdG9yeSAgIChCKWRkAgIPDxYCHwAFBFdJMTFkZAIDDw8WAh8ABQMyNjNkZAIED2QWAgIBDw8WAh8ABQMxMDZkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzkuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODguNyVkZAIHD2QWAgIBDw8WAh8ABQQ4LjI1ZGQCCA9kFgQCAQ8PFgIfAAUQMy4zODA5NTIzODA5NTIzOGRkAgMPDxYCHwAFCUIrICgzLjM4KWRkAgkPZBYEAgEPDxYCHwAFBTIuODUzZGQCAw8PFgIfAAUJQi0gKDIuODUpZGQC0g0PZBYUZg8PFgIfAAUjQ3p3b3Jrb3dza2ksIEpvaG4gICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDIwZGQCAw8PFgIfAAUGNzA3NTk0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzA3NTk0HwAFLkNIRU0gODcgICAtIEZyZXNobWFuIFNlbWluYXIgICAgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRXSTExZGQCAw8PFgIfAAUCMTFkZAIED2QWAgIBDw8WAh8ABQE4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg3LjUlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg3LjUlZGQCBw9kFgICAQ8PFgIfAAUEMS41MGRkAggPZBYEAgEPDxYCHwAFATRkZAIDDw8WAh8ABQhBICg0LjAwKWRkAgkPZBYCAgEPDxYCHwBlZGQC0w0PZBYUZg8PFgIfAAUjQ3p3b3Jrb3dza2ksIEpvaG4gICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDIwZGQCAw8PFgIfAAUGNzA1MTQwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NzA1MTQwHwAFLkNIRU0gOTYgICAtIEludHJvZHVjdG4gdG8gVGVhY2hpbmcgU2NpZW5jZSAoQSlkZAICDw8WAh8ABQRXSTExZGQCAw8PFgIfAAUCMThkZAIED2QWAgIBDw8WAh8ABQE4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg3LjUlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDMuNTBkZAIID2QWBAIBDw8WAh8ABRAzLjgzMzMzMzMzMzMzMzMzZGQCAw8PFgIfAAUJQS0gKDMuODMpZGQCCQ9kFgICAQ8PFgIfAGVkZALUDQ9kFhRmDw8WAh8ABSNGZW5nLCBEYSBGZWkgICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MTBkZAIDDw8WAh8ABQY2OTM0NjdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02OTM0NjcfAAUvQ0hFTSAxMDBBICAtIEFuYWx5dGljYWwgQ2hlbSBMYWIgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTEwZGQCAw8PFgIfAAUCNzNkZAIED2QWAgIBDw8WAh8ABQIzOWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU1Mi42JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU2MC41JWRkAgcPZBYCAgEPDxYCHwAFBTEyLjA0ZGQCCA9kFgQCAQ8PFgIfAAUQMy4xMzUxMzUxMzUxMzUxNGRkAgMPDxYCHwAFCEIgKDMuMTQpZGQCCQ9kFgQCAQ8PFgIfAAUEMy4wN2RkAgMPDxYCHwAFCEIgKDMuMDcpZGQC1Q0PZBYUZg8PFgIfAAUjUG9tZXJveSwgUm9iZXJ0IFMuICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDEwZGQCAw8PFgIfAAUGNjkzNDcyZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjkzNDcyHwAFL0NIRU0gMTAwQiAgLSBGdW5kYW1lbnRscy9JbnN0cnVtZW50bCBBbmFseXMgKEEpZGQCAg8PFgIfAAUERkExMGRkAgMPDxYCHwAFAjE1ZGQCBA9kFgICAQ8PFgIfAAUBNGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUENi4wMGRkAggPZBYEAgEPDxYCHwAFBDMuMjVkZAIDDw8WAh8ABQhCICgzLjI1KWRkAgkPZBYCAgEPDxYCHwBlZGQC1g0PZBYUZg8PFgIfAAUjUG9tZXJveSwgUm9iZXJ0IFMuICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDEwZGQCAw8PFgIfAAUGNjkzNDczZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjkzNDczHwAFL0NIRU0gMTAwQkwgLSBJbnN0cnVtZW50YWwgQW5hbHlzaXMgTGFiICAgICAgKEEpZGQCAg8PFgIfAAUERkExMGRkAgMPDxYCHwAFAjE0ZGQCBA9kFgICAQ8PFgIfAAUBNGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUENS4wMGRkAggPZBYEAgEPDxYCHwAFBDMuMjVkZAIDDw8WAh8ABQhCICgzLjI1KWRkAgkPZBYCAgEPDxYCHwBlZGQC1w0PZBYUZg8PFgIfAAUjS2ltLCBKdWR5IEUuICAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDEwZGQCAw8PFgIfAAUGNjkzNDc0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjkzNDc0HwAFL0NIRU0gMTA1QSAgLSBQaHlzaWNhbCBDaGVtaXN0cnkgTGFib3JhdG9yeSAgKEEpZGQCAg8PFgIfAAUERkExMGRkAgMPDxYCHwAFAjI3ZGQCBA9kFgICAQ8PFgIfAAUCMTFkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgxLjglZGQCBw9kFgICAQ8PFgIfAAUENy41MGRkAggPZBYEAgEPDxYCHwAFAzMuNmRkAgMPDxYCHwAFCUIrICgzLjYwKWRkAgkPZBYEAgEPDxYCHwAFBTMuMDE5ZGQCAw8PFgIfAAUIQiAoMy4wMilkZALYDQ9kFhRmDw8WAh8ABSNQaWNraGFtLCBLYXRobGVlbiBNICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MTBkZAIDDw8WAh8ABQY2OTM0NzdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02OTM0NzcfAAUtQ0hFTSAxMDggLSBQcm90ZWluIEJpb2NoZW1pc3RyeSBMYWIgICAgICAgKEEpZGQCAg8PFgIfAAUERkExMGRkAgMPDxYCHwAFAjI4ZGQCBA9kFgICAQ8PFgIfAAUCMTVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODYuNyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUENi43N2RkAggPZBYEAgEPDxYCHwAFEDMuNTcxNDI4NTcxNDI4NTdkZAIDDw8WAh8ABQlCKyAoMy41NylkZAIJD2QWBAIBDw8WAh8ABQUzLjMzM2RkAgMPDxYCHwAFCUIrICgzLjMzKWRkAtkND2QWFGYPDxYCHwAFI1BpY2toYW0sIEthdGhsZWVuIE0gICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQxMGRkAgMPDxYCHwAFBjY5MzQ4MGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY5MzQ4MB8ABS1DSEVNIDEwOCAtIFByb3RlaW4gQmlvY2hlbWlzdHJ5IExhYiAgICAgICAoQilkZAICDw8WAh8ABQRGQTEwZGQCAw8PFgIfAAUCMTdkZAIED2QWAgIBDw8WAh8ABQIxMGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTAuMCVkZAIHD2QWAgIBDw8WAh8ABQUxMS4zMGRkAggPZBYEAgEPDxYCHwAFAzMuNGRkAgMPDxYCHwAFCUIrICgzLjQwKWRkAgkPZBYCAgEPDxYCHwBlZGQC2g0PZBYUZg8PFgIfAAUjQnJ5ZGdlcywgU3RhY2V5ICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDEwZGQCAw8PFgIfAAUGNjkzNDUzZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjkzNDUzHwAFLENIRU0gMTEgLSBUaGUgUGVyaW9kaWMgVGFibGUgICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUERkExMGRkAgMPDxYCHwAFAzE0NGRkAgQPZBYCAgEPDxYCHwAFAjc1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg1LjElZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk3LjMlZGQCBw9kFgICAQ8PFgIfAAUENS4zMWRkAggPZBYEAgEPDxYCHwAFEDMuMzI4NTcxNDI4NTcxNDNkZAIDDw8WAh8ABQlCKyAoMy4zMylkZAIJD2QWBAIBDw8WAh8ABQUzLjIzNGRkAgMPDxYCHwAFCEIgKDMuMjMpZGQC2w0PZBYUZg8PFgIfAAUjQnJ5ZGdlcywgU3RhY2V5ICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDEwZGQCAw8PFgIfAAUGNjkzNDYwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjkzNDYwHwAFLENIRU0gMTEgLSBUaGUgUGVyaW9kaWMgVGFibGUgICAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUERkExMGRkAgMPDxYCHwAFAzE0MWRkAgQPZBYCAgEPDxYCHwAFAjc0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgzLjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk1LjglZGQCBw9kFgICAQ8PFgIfAAUENS4yOGRkAggPZBYEAgEPDxYCHwAFEDMuMzIyMDMzODk4MzA1MDhkZAIDDw8WAh8ABQlCKyAoMy4zMilkZAIJD2QWBAIBDw8WAh8ABQUzLjIzNGRkAgMPDxYCHwAFCEIgKDMuMjMpZGQC3A0PZBYUZg8PFgIfAAUjVmlhZGl1LCBIZWN0b3IgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDEwZGQCAw8PFgIfAAUGNjkzNDgzZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjkzNDgzHwAFL0NIRU0gMTE0QSAgLSBCaW9jaGVtaWNhbCBTdHJ1Y3R1cmUmRnVuY3Rpb24gKEEpZGQCAg8PFgIfAAUERkExMGRkAgMPDxYCHwAFAzIxMGRkAgQPZBYCAgEPDxYCHwAFAzEzNWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4OC44JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MC4zJWRkAgcPZBYCAgEPDxYCHwAFBDcuNjVkZAIID2QWBAIBDw8WAh8ABRAzLjM4OTMxMjk3NzA5OTI0ZGQCAw8PFgIfAAUJQisgKDMuMzkpZGQCCQ9kFgQCAQ8PFgIfAAUFMi43MzlkZAIDDw8WAh8ABQlCLSAoMi43NClkZALdDQ9kFhRmDw8WAh8ABSNEb25vZ2h1ZSwgRGFuaWVsIEouICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MTBkZAIDDw8WAh8ABQY2OTM0OTJkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02OTM0OTIfAAUvQ0hFTSAxMTREICAtIE1vbGVjdWxhciAmIENlbGx1bGFyIEJpb2NoZW0gICAoQSlkZAICDw8WAh8ABQRGQTEwZGQCAw8PFgIfAAUCMTRkZAIED2QWAgIBDw8WAh8ABQE0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc1LjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDQuNTBkZAIID2QWBAIBDw8WAh8ABQQzLjc1ZGQCAw8PFgIfAAUJQS0gKDMuNzUpZGQCCQ9kFgICAQ8PFgIfAGVkZALeDQ9kFhRmDw8WAh8ABSNLb21pdmVzLCBFbGl6YWJldGggQSAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MTBkZAIDDw8WAh8ABQY2OTM0OTNkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02OTM0OTMfAAUtQ0hFTSAxMTYgLSBFbnp5bWUgQ2F0YWx5emVkIFJlYWN0aW9ucyAgICAgKEEpZGQCAg8PFgIfAAUERkExMGRkAgMPDxYCHwAFAjI3ZGQCBA9kFgICAQ8PFgIfAAUCMTVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTMuMyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTMuMyVkZAIHD2QWAgIBDw8WAh8ABQQ1LjMwZGQCCA9kFgQCAQ8PFgIfAAUDMy42ZGQCAw8PFgIfAAUJQisgKDMuNjApZGQCCQ9kFgQCAQ8PFgIfAAUFMy41MDVkZAIDDw8WAh8ABQlCKyAoMy41MSlkZALfDQ9kFhRmDw8WAh8ABSNGaWd1ZXJvYSwgSm9zaHVhICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MTBkZAIDDw8WAh8ABQY2OTM0OTVkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02OTM0OTUfAAUvQ0hFTSAxMjBBICAtIElub3JnYW5pYyBDaGVtaXN0cnkgSSAgICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTEwZGQCAw8PFgIfAAUDMTQ4ZGQCBA9kFgICAQ8PFgIfAAUCNzdkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODAuNSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzYuNiVkZAIHD2QWAgIBDw8WAh8ABQQ2LjgxZGQCCA9kFgQCAQ8PFgIfAAUQMy4zMzMzMzMzMzMzMzMzM2RkAgMPDxYCHwAFCUIrICgzLjMzKWRkAgkPZBYEAgEPDxYCHwAFBDMuMDJkZAIDDw8WAh8ABQhCICgzLjAyKWRkAuAND2QWFGYPDxYCHwAFI1RhdWJlciwgTWljaGFlbCAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQxMGRkAgMPDxYCHwAFBjY5MzUwNGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY5MzUwNB8ABS1DSEVNIDEyNyAtIFBoeXNpY2FsIENoZW1pc3RyeSAgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTEwZGQCAw8PFgIfAAUDMTY1ZGQCBA9kFgICAQ8PFgIfAAUCOTZkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzUuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTEuNyVkZAIHD2QWAgIBDw8WAh8ABQQ4LjIwZGQCCA9kFgQCAQ8PFgIfAAUQMy4xMjc2NTk1NzQ0NjgwOWRkAgMPDxYCHwAFCEIgKDMuMTMpZGQCCQ9kFgQCAQ8PFgIfAAUFMi41NzNkZAIDDw8WAh8ABQlDKyAoMi41NylkZALhDQ9kFhRmDw8WAh8ABSNHYWxwZXJpbiwgTWljaGFlbCAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MTBkZAIDDw8WAh8ABQY2OTM1MTNkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02OTM1MTMfAAUtQ0hFTSAxMzMgLSBQaHlzaWNhbCBDaGVtaXN0cnkgICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUERkExMGRkAgMPDxYCHwAFAjU0ZGQCBA9kFgICAQ8PFgIfAAUCMjdkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNTEuOSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjYuNyVkZAIHD2QWAgIBDw8WAh8ABQQ5Ljk4ZGQCCA9kFgQCAQ8PFgIfAAUEMi45NmRkAgMPDxYCHwAFCUItICgyLjk2KWRkAgkPZBYEAgEPDxYCHwAFBDIuNDhkZAIDDw8WAh8ABQlDKyAoMi40OClkZALiDQ9kFhRmDw8WAh8ABSNUZXJuYW5za3ksIFJvYmVydCBKLiAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MTBkZAIDDw8WAh8ABQY2OTM1MThkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02OTM1MTgfAAUvQ0hFTSAxNDBBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTEwZGQCAw8PFgIfAAUDMjU2ZGQCBA9kFgICAQ8PFgIfAAUDMTczZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkxLjklZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg4LjQlZGQCBw9kFgICAQ8PFgIfAAUFMTEuNjBkZAIID2QWBAIBDw8WAh8ABRAzLjA4OTgyMDM1OTI4MTQ0ZGQCAw8PFgIfAAUIQiAoMy4wOSlkZAIJD2QWBAIBDw8WAh8ABQUyLjY3NmRkAgMPDxYCHwAFCUMrICgyLjY4KWRkAuMND2QWFGYPDxYCHwAFI1doaXRlc2VsbCwgSmFtZXMgSy4gICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQxMGRkAgMPDxYCHwAFBjY5MzUyOWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY5MzUyOR8ABS9DSEVNIDE0MEEgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSSAgICAgICAgICAgIChCKWRkAgIPDxYCHwAFBEZBMTBkZAIDDw8WAh8ABQMxNzJkZAIED2QWAgIBDw8WAh8ABQI3OGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Ni4yJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3My4xJWRkAgcPZBYCAgEPDxYCHwAFBDcuNzVkZAIID2QWBAIBDw8WAh8ABRAzLjM1MDY0OTM1MDY0OTM1ZGQCAw8PFgIfAAUJQisgKDMuMzUpZGQCCQ9kFgQCAQ8PFgIfAAUFMi4zOTFkZAIDDw8WAh8ABQlDKyAoMi4zOSlkZALkDQ9kFhRmDw8WAh8ABSNQZXJyaW4sIENoYXJsZXMgTC4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MTBkZAIDDw8WAh8ABQY2OTM1NDBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02OTM1NDAfAAUvQ0hFTSAxNDBBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQylkZAICDw8WAh8ABQRGQTEwZGQCAw8PFgIfAAUDMzY5ZGQCBA9kFgICAQ8PFgIfAAUDMTc0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg1LjUlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkwLjYlZGQCBw9kFgICAQ8PFgIfAAUEOC45OWRkAggPZBYEAgEPDxYCHwAFEDMuMDE4MDcyMjg5MTU2NjNkZAIDDw8WAh8ABQhCICgzLjAyKWRkAgkPZBYEAgEPDxYCHwAFBTIuNjQ5ZGQCAw8PFgIfAAUJQysgKDIuNjUpZGQC5Q0PZBYUZg8PFgIfAAUjT2Nvbm5vciwgSm9zZXBoIE0uICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDEwZGQCAw8PFgIfAAUGNjkzNTUxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjkzNTUxHwAFL0NIRU0gMTQwQSAgLSBPcmdhbmljIENoZW1pc3RyeSBJICAgICAgICAgICAgKEQpZGQCAg8PFgIfAAUERkExMGRkAgMPDxYCHwAFAzM3OGRkAgQPZBYCAgEPDxYCHwAFAzIwM2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NS4xJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NS4wJWRkAgcPZBYCAgEPDxYCHwAFBDkuMDZkZAIID2QWBAIBDw8WAh8ABRAzLjE3OTQ4NzE3OTQ4NzE4ZGQCAw8PFgIfAAUIQiAoMy4xOClkZAIJD2QWBAIBDw8WAh8ABQUyLjY4MWRkAgMPDxYCHwAFCUMrICgyLjY4KWRkAuYND2QWFGYPDxYCHwAFI0hvZWdlciwgQ2FybCAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQxMGRkAgMPDxYCHwAFBjY5MzU2MmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY5MzU2Mh8ABS9DSEVNIDE0MEIgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSUkgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMTBkZAIDDw8WAh8ABQMyNzNkZAIED2QWAgIBDw8WAh8ABQMxMTVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzQuNiVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODkuNiVkZAIHD2QWAgIBDw8WAh8ABQQ5Ljg2ZGQCCA9kFgQCAQ8PFgIfAAUQMy4wMjY3ODU3MTQyODU3MWRkAgMPDxYCHwAFCEIgKDMuMDMpZGQCCQ9kFgQCAQ8PFgIfAAUFMi42MTdkZAIDDw8WAh8ABQlDKyAoMi42MilkZALnDQ9kFhRmDw8WAh8ABSNIZXJtYW5uLCBUaG9tYXMgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MTBkZAIDDw8WAh8ABQY2OTM1NzNkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02OTM1NzMfAAUvQ0hFTSAxNDBDICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IElJSSAgICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTEwZGQCAw8PFgIfAAUDMzUwZGQCBA9kFgICAQ8PFgIfAAUDMTY1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg2LjElZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg3LjMlZGQCBw9kFgICAQ8PFgIfAAUENy40NmRkAggPZBYEAgEPDxYCHwAFEDMuMDk2MTUzODQ2MTUzODVkZAIDDw8WAh8ABQhCICgzLjEwKWRkAgkPZBYEAgEPDxYCHwAFBTIuNDg0ZGQCAw8PFgIfAAUJQysgKDIuNDgpZGQC6A0PZBYUZg8PFgIfAAUjV2Vpem1hbiwgSGFpbSAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDEwZGQCAw8PFgIfAAUGNjkzNTg0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjkzNTg0HwAFL0NIRU0gMTQzQSAgLSBPcmdhbmljIENoZW1pc3RyeSBMYWJvcmF0b3J5ICAgKEEpZGQCAg8PFgIfAAUERkExMGRkAgMPDxYCHwAFAzQ1N2RkAgQPZBYCAgEPDxYCHwAFAzE5NmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NS4xJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ny4xJWRkAgcPZBYCAgEPDxYCHwAFBDguMDRkZAIID2QWBAIBDw8WAh8ABRAzLjMxMDUyNjMxNTc4OTQ3ZGQCAw8PFgIfAAUJQisgKDMuMzEpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4wNDFkZAIDDw8WAh8ABQhCICgzLjA0KWRkAukND2QWFGYPDxYCHwAFI1Rlcm5hbnNreSwgUm9iZXJ0IEouICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQxMGRkAgMPDxYCHwAFBjY5MzYwOGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY5MzYwOB8ABS9DSEVNIDE0M0MgIC0gT3JnYW5pYyBDaGVtaXN0cnkgTGFib3JhdG9yeSAgIChBKWRkAgIPDxYCHwAFBEZBMTBkZAIDDw8WAh8ABQI3M2RkAgQPZBYCAgEPDxYCHwAFAjUyZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk0LjIlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk4LjElZGQCBw9kFgICAQ8PFgIfAAUENi43NGRkAggPZBYEAgEPDxYCHwAFBDMuNDJkZAIDDw8WAh8ABQlCKyAoMy40MilkZAIJD2QWBAIBDw8WAh8ABQUzLjE0OWRkAgMPDxYCHwAFCEIgKDMuMTUpZGQC6g0PZBYUZg8PFgIfAAUjQmVydHJhbSwgVGltb3RoeSAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDEwZGQCAw8PFgIfAAUGNjkzNjE0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjkzNjE0HwAFL0NIRU0gMTQ5QSAgLSBFbnZpcm9ubWVudGFsIENoZW1pc3RyeSAgICAgICAgKEEpZGQCAg8PFgIfAAUERkExMGRkAgMPDxYCHwAFAjU2ZGQCBA9kFgICAQ8PFgIfAAUCMzVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODguNiVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTEuNCVkZAIHD2QWAgIBDw8WAh8ABQQ1LjU5ZGQCCA9kFgQCAQ8PFgIfAAUQMy40MTE3NjQ3MDU4ODIzNWRkAgMPDxYCHwAFCUIrICgzLjQxKWRkAgkPZBYEAgEPDxYCHwAFBTMuMTQzZGQCAw8PFgIfAAUIQiAoMy4xNClkZALrDQ9kFhRmDw8WAh8ABSNUaGVvZG9yYWtpcywgRW1tYW5vdWlsICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MTBkZAIDDw8WAh8ABQY2OTM2MThkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02OTM2MTgfAAUtQ0hFTSAxNTIgLSBTeW50aGV0aWMgTWV0aG9kcy9PcmdhbmljIENoZW0gKEEpZGQCAg8PFgIfAAUERkExMGRkAgMPDxYCHwAFAjMyZGQCBA9kFgICAQ8PFgIfAAUCMTZkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTMuOCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUEMy4yNWRkAggPZBYEAgEPDxYCHwAFBjMuNjg3NWRkAgMPDxYCHwAFCUIrICgzLjY5KWRkAgkPZBYEAgEPDxYCHwAFBTMuNTYzZGQCAw8PFgIfAAUJQisgKDMuNTYpZGQC7A0PZBYUZg8PFgIfAAUjVG9yLCBZaXR6aGFrICAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDEwZGQCAw8PFgIfAAUGNjkzNjE5ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjkzNjE5HwAFLUNIRU0gMTU0IC0gTWVjaGFuaXNtcy9PcmdhbmljIFJlYWN0aW9ucyAgIChBKWRkAgIPDxYCHwAFBEZBMTBkZAIDDw8WAh8ABQI1MGRkAgQPZBYCAgEPDxYCHwAFAjI1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk2LjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk2LjAlZGQCBw9kFgICAQ8PFgIfAAUENS43OGRkAggPZBYEAgEPDxYCHwAFBDMuNDRkZAIDDw8WAh8ABQlCKyAoMy40NClkZAIJD2QWBAIBDw8WAh8ABQUzLjIxMWRkAgMPDxYCHwAFCEIgKDMuMjEpZGQC7Q0PZBYUZg8PFgIfAAUjQmVydHJhbSwgVGltb3RoeSAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDEwZGQCAw8PFgIfAAUGNjkzNjE0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjkzNjE0HwAFLUNIRU0gMTcxIC0gRW52aXJvbm1lbnRhbCBDaGVtaXN0cnkgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMTBkZAIDDw8WAh8ABQI1NmRkAgQPZBYCAgEPDxYCHwAFAjM1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg4LjYlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkxLjQlZGQCBw9kFgICAQ8PFgIfAAUENS41OWRkAggPZBYEAgEPDxYCHwAFEDMuNDExNzY0NzA1ODgyMzVkZAIDDw8WAh8ABQlCKyAoMy40MSlkZAIJD2QWBAIBDw8WAh8ABQUzLjE0M2RkAgMPDxYCHwAFCEIgKDMuMTQpZGQC7g0PZBYUZg8PFgIfAAUjSG9lZ2VyLCBDYXJsICAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDEwZGQCAw8PFgIfAAUGNjkzMzI0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjkzMzI0HwAFK0NIRU0gNCAtIEJhc2ljIENoZW1pc3RyeSAgICAgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTEwZGQCAw8PFgIfAAUDMzA3ZGQCBA9kFgICAQ8PFgIfAAUDMTg4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk1LjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk1LjclZGQCBw9kFgICAQ8PFgIfAAUEOS4zMWRkAggPZBYEAgEPDxYCHwAFDzMuMTg2NDQwNjc3OTY2MWRkAgMPDxYCHwAFCEIgKDMuMTkpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4wMTJkZAIDDw8WAh8ABQhCICgzLjAxKWRkAu8ND2QWFGYPDxYCHwAFI01hZ2RlLCBEb3VnbGFzICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQxMGRkAgMPDxYCHwAFBjY5MzMzN2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY5MzMzNx8ABS1DSEVNIDZBICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTEwZGQCAw8PFgIfAAUDMzI4ZGQCBA9kFgICAQ8PFgIfAAUDMjA3ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg5LjYlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTU2LjQlZGQCBw9kFgICAQ8PFgIfAAUENy40M2RkAggPZBYEAgEPDxYCHwAFBDMuMTVkZAIDDw8WAh8ABQhCICgzLjE1KWRkAgkPZBYEAgEPDxYCHwAFBTIuODAzZGQCAw8PFgIfAAUJQi0gKDIuODApZGQC8A0PZBYUZg8PFgIfAAUjQ3p3b3Jrb3dza2ksIEpvaG4gICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDEwZGQCAw8PFgIfAAUGNjkzMzQ3ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjkzMzQ3HwAFLUNIRU0gNkEgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSSAgICAgICAgICAgIChCKWRkAgIPDxYCHwAFBEZBMTBkZAIDDw8WAh8ABQMzNDBkZAIED2QWAgIBDw8WAh8ABQMyMDNkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTIuMSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzcuMiVkZAIHD2QWAgIBDw8WAh8ABQQ2Ljc0ZGQCCA9kFgQCAQ8PFgIfAAUQMy4yNDg3NTYyMTg5MDU0N2RkAgMPDxYCHwAFCEIgKDMuMjUpZGQCCQ9kFgQCAQ8PFgIfAAUFMi44MjhkZAIDDw8WAh8ABQlCLSAoMi44MylkZALxDQ9kFhRmDw8WAh8ABSNDendvcmtvd3NraSwgSm9obiAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MTBkZAIDDw8WAh8ABQY2OTMzNTdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02OTMzNTcfAAUtQ0hFTSA2QSAgLSBHZW5lcmFsIENoZW1pc3RyeSBJICAgICAgICAgICAgKEMpZGQCAg8PFgIfAAUERkExMGRkAgMPDxYCHwAFAzM0MmRkAgQPZBYCAgEPDxYCHwAFAzE2NmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4OS4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3NS41JWRkAgcPZBYCAgEPDxYCHwAFBDYuNTZkZAIID2QWBAIBDw8WAh8ABRAzLjIwODU4ODk1NzA1NTIxZGQCAw8PFgIfAAUIQiAoMy4yMSlkZAIJD2QWBAIBDw8WAh8ABQUyLjgyOGRkAgMPDxYCHwAFCUItICgyLjgzKWRkAvIND2QWFGYPDxYCHwAFI1NhaWxvciwgTWljaGFlbCBKb3NlcGggICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQxMGRkAgMPDxYCHwAFBjY5MzM2N2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY5MzM2Nx8ABS1DSEVNIDZBICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoRClkZAICDw8WAh8ABQRGQTEwZGQCAw8PFgIfAAUDMzE4ZGQCBA9kFgICAQ8PFgIfAAUDMTc3ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk1LjQlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkxLjQlZGQCBw9kFgICAQ8PFgIfAAUENi4xNGRkAggPZBYEAgEPDxYCHwAFEDMuMzkwODA0NTk3NzAxMTVkZAIDDw8WAh8ABQlCKyAoMy4zOSlkZAIJD2QWBAIBDw8WAh8ABQUyLjg5NGRkAgMPDxYCHwAFCUItICgyLjg5KWRkAvMND2QWFGYPDxYCHwAFI0pvaG5zb24sIENocmlzdGluYSBBICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQxMGRkAgMPDxYCHwAFBjY5MzM3N2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY5MzM3Nx8ABS1DSEVNIDZBICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoRSlkZAICDw8WAh8ABQRGQTEwZGQCAw8PFgIfAAUDMzMwZGQCBA9kFgICAQ8PFgIfAAUDMTg4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkyLjUlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk2LjIlZGQCBw9kFgICAQ8PFgIfAAUEOC42M2RkAggPZBYEAgEPDxYCHwAFEDMuMTg2ODEzMTg2ODEzMTlkZAIDDw8WAh8ABQhCICgzLjE5KWRkAgkPZBYEAgEPDxYCHwAFBTMuMjM3ZGQCAw8PFgIfAAUIQiAoMy4yNClkZAL0DQ9kFhRmDw8WAh8ABSNXZWFyZSwgSm9obiBILiAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MTBkZAIDDw8WAh8ABQY2OTMzODdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02OTMzODcfAAUtQ0hFTSA2QUggLSBIb25vcnMgR2VuZXJhbCBDaGVtaXN0cnkgSSAgICAgKEEpZGQCAg8PFgIfAAUERkExMGRkAgMPDxYCHwAFAzE1OGRkAgQPZBYCAgEPDxYCHwAFAzEwMWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU0My42JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQUzMS4wJWRkAgcPZBYCAgEPDxYCHwAFBDguMDhkZAIID2QWBAIBDw8WAh8ABRAzLjM5Nzk1OTE4MzY3MzQ3ZGQCAw8PFgIfAAUJQisgKDMuNDApZGQCCQ9kFgQCAQ8PFgIfAAUFMy40NTlkZAIDDw8WAh8ABQlCKyAoMy40NilkZAL1DQ9kFhRmDw8WAh8ABSNDcm93ZWxsLCBKb2huIEUgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MTBkZAIDDw8WAh8ABQY2OTMzOTNkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02OTMzOTMfAAUtQ0hFTSA2QiAgLSBHZW5lcmFsIENoZW1pc3RyeSBJSSAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUERkExMGRkAgMPDxYCHwAFAzI3M2RkAgQPZBYCAgEPDxYCHwAFAzEyNGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ni4yJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3NC44JWRkAgcPZBYCAgEPDxYCHwAFBDcuMzZkZAIID2QWBAIBDw8WAh8ABRAzLjEyOTAzMjI1ODA2NDUyZGQCAw8PFgIfAAUIQiAoMy4xMylkZAIJD2QWBAIBDw8WAh8ABQUyLjQ2NGRkAgMPDxYCHwAFCUMrICgyLjQ2KWRkAvYND2QWFGYPDxYCHwAFI1JoZWluZ29sZCwgQXJub2xkIEwgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQxMGRkAgMPDxYCHwAFBjY5MzQzM2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY5MzQzMx8ABS1DSEVNIDZDICAtIEdlbmVyYWwgQ2hlbWlzdHJ5ICBJSUkgICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTEwZGQCAw8PFgIfAAUDMTkxZGQCBA9kFgICAQ8PFgIfAAUCODRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzguNiVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNDQuNiVkZAIHD2QWAgIBDw8WAh8ABQQ2LjUyZGQCCA9kFgQCAQ8PFgIfAAUQMi44MTQ4MTQ4MTQ4MTQ4MWRkAgMPDxYCHwAFCUItICgyLjgxKWRkAgkPZBYEAgEPDxYCHwAFBTIuNDc5ZGQCAw8PFgIfAAUJQysgKDIuNDgpZGQC9w0PZBYUZg8PFgIfAAUjUG9tZXJveSwgUm9iZXJ0IFMuICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDEwZGQCAw8PFgIfAAUGNjkzNDQzZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjkzNDQzHwAFLUNIRU0gNkMgIC0gR2VuZXJhbCBDaGVtaXN0cnkgIElJSSAgICAgICAgIChCKWRkAgIPDxYCHwAFBEZBMTBkZAIDDw8WAh8ABQMxNDNkZAIED2QWAgIBDw8WAh8ABQI2MWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ni45JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3Mi4xJWRkAgcPZBYCAgEPDxYCHwAFBDcuMTdkZAIID2QWBAIBDw8WAh8ABRAzLjA4NDc0NTc2MjcxMTg2ZGQCAw8PFgIfAAUIQiAoMy4wOClkZAIJD2QWBAIBDw8WAh8ABQUyLjY3NWRkAgMPDxYCHwAFCUMrICgyLjY4KWRkAvgND2QWFGYPDxYCHwAFI0Jlcm5pb2xsZXMsIFNhbmRyaW5lICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQxMGRkAgMPDxYCHwAFBjY5NTUxOWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY5NTUxOR8ABS1DSEVNIDdMICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IExhYm9yYXRvcnkgICAoQSlkZAICDw8WAh8ABQRGQTEwZGQCAw8PFgIfAAUDMjQ3ZGQCBA9kFgICAQ8PFgIfAAUDMTE0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTczLjIlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgzLjklZGQCBw9kFgICAQ8PFgIfAAUEOC4zOWRkAggPZBYEAgEPDxYCHwAFEDMuMzU3Nzk4MTY1MTM3NjFkZAIDDw8WAh8ABQlCKyAoMy4zNilkZAIJD2QWBAIBDw8WAh8ABQUyLjkwOGRkAgMPDxYCHwAFCUItICgyLjkxKWRkAvkND2QWFGYPDxYCHwAFI0Jlcm5pb2xsZXMsIFNhbmRyaW5lICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQxMGRkAgMPDxYCHwAFBjY5NTUzN2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY5NTUzNx8ABS1DSEVNIDdMICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IExhYm9yYXRvcnkgICAoQilkZAICDw8WAh8ABQRGQTEwZGQCAw8PFgIfAAUDMjUyZGQCBA9kFgICAQ8PFgIfAAUDMTIwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTcxLjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc1LjYlZGQCBw9kFgICAQ8PFgIfAAUEOC42MmRkAggPZBYEAgEPDxYCHwAFEDMuMzQ0NTM3ODE1MTI2MDVkZAIDDw8WAh8ABQlCKyAoMy4zNClkZAIJD2QWBAIBDw8WAh8ABQUyLjkwOGRkAgMPDxYCHwAFCUItICgyLjkxKWRkAvoND2QWFGYPDxYCHwAFI0N6d29ya293c2tpLCBKb2huICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQxMGRkAgMPDxYCHwAFBjY5ODM2NWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY5ODM2NR8ABSxDSEVNIDg3IC0gRnJlc2htYW4gU2VtaW5hciAgICAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMTBkZAIDDw8WAh8ABQIxOGRkAgQPZBYCAgEPDxYCHwAFAjEyZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkxLjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDAuODNkZAIID2QWBAIBDw8WAh8ABQE0ZGQCAw8PFgIfAAUIQSAoNC4wMClkZAIJD2QWAgIBDw8WAh8AZWRkAvsND2QWFGYPDxYCHwAFI0JyeWRnZXMsIFN0YWNleSAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQxMGRkAgMPDxYCHwAFBjY5ODM2NmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY5ODM2Nh8ABSxDSEVNIDg3IC0gRnJlc2htYW4gU2VtaW5hciAgICAgICAgICAgICAgIChCKWRkAgIPDxYCHwAFBEZBMTBkZAIDDw8WAh8ABQIxOWRkAgQPZBYCAgEPDxYCHwAFAjE2ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQwLjYzZGQCCA9kFgQCAQ8PFgIfAAUBNGRkAgMPDxYCHwAFCEEgKDQuMDApZGQCCQ9kFgICAQ8PFgIfAGVkZAL8DQ9kFhRmDw8WAh8ABSNXZWl6bWFuLCBIYWltICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MTBkZAIDDw8WAh8ABQY2OTg5OTRkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02OTg5OTQfAAUsQ0hFTSA4NyAtIEZyZXNobWFuIFNlbWluYXIgICAgICAgICAgICAgICAoQylkZAICDw8WAh8ABQRGQTEwZGQCAw8PFgIfAAUCMTJkZAIED2QWAgIBDw8WAh8ABQIxMGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MC4wJWRkAgcPZBYCAgEPDxYCHwAFBDAuNTBkZAIID2QWBAIBDw8WAh8ABQE0ZGQCAw8PFgIfAAUIQSAoNC4wMClkZAIJD2QWAgIBDw8WAh8AZWRkAv0ND2QWFGYPDxYCHwAFI1BvbWVyb3ksIFJvYmVydCBTLiAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQwMGRkAgMPDxYCHwAFBjY4NTkxM2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4NTkxMx8ABS9DSEVNIDEwMEEgIC0gQW5hbHl0aWNhbCBDaGVtIExhYiAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNVMTBkZAIDDw8WAh8ABQIyMWRkAgQPZBYCAgEPDxYCHwAFAThkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODcuNSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODcuNSVkZAIHD2QWAgIBDw8WAh8ABQUxMi43NWRkAggPZBYEAgEPDxYCHwAFBTMuNjI1ZGQCAw8PFgIfAAUJQisgKDMuNjMpZGQCCQ9kFgICAQ8PFgIfAGVkZAL+DQ9kFhRmDw8WAh8ABSNLbm93bGVzLCBBaWxlZW4gICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MDBkZAIDDw8WAh8ABQY2ODYyNTJkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02ODYyNTIfAAUvQ0hFTSAxMTRBICAtIEJpb2NoZW1pY2FsIFN0cnVjdHVyZSZGdW5jdGlvbiAoQSlkZAICDw8WAh8ABQRTVTEwZGQCAw8PFgIfAAUCMzRkZAIED2QWAgIBDw8WAh8ABQIxNmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5My44JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ5LjUwZGQCCA9kFgQCAQ8PFgIfAAUGMy41NjI1ZGQCAw8PFgIfAAUJQisgKDMuNTYpZGQCCQ9kFgICAQ8PFgIfAGVkZAL/DQ9kFhRmDw8WAh8ABSNPY29ubm9yLCBKb3NlcGggTS4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MDBkZAIDDw8WAh8ABQY2ODU5MTVkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02ODU5MTUfAAUvQ0hFTSAxNDBBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRTVTEwZGQCAw8PFgIfAAUDMTkzZGQCBA9kFgICAQ8PFgIfAAUCNjNkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODQuMSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTguNCVkZAIHD2QWAgIBDw8WAh8ABQUxMi42NmRkAggPZBYEAgEPDxYCHwAFEDMuMzI3ODY4ODUyNDU5MDJkZAIDDw8WAh8ABQlCKyAoMy4zMylkZAIJD2QWAgIBDw8WAh8AZWRkAoAOD2QWFGYPDxYCHwAFI09jb25ub3IsIEpvc2VwaCBNLiAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQwMGRkAgMPDxYCHwAFBjY4NjI1NGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4NjI1NB8ABS9DSEVNIDE0MEIgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSUkgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNVMTBkZAIDDw8WAh8ABQMyMjZkZAIED2QWAgIBDw8WAh8ABQI2MWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3OC43JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQUxMi41MGRkAggPZBYEAgEPDxYCHwAFBDMuMDVkZAIDDw8WAh8ABQhCICgzLjA1KWRkAgkPZBYCAgEPDxYCHwBlZGQCgQ4PZBYUZg8PFgIfAAUjV2Vpem1hbiwgSGFpbSAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDAwZGQCAw8PFgIfAAUGNjk3MDY0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9Njk3MDY0HwAFL0NIRU0gMTQwQiAgLSBPcmdhbmljIENoZW1pc3RyeSBJSSAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUEU1UxMGRkAgMPDxYCHwAFAzE0NmRkAgQPZBYCAgEPDxYCHwAFAjM4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg0LjIlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk3LjQlZGQCBw9kFgICAQ8PFgIfAAUEOS41MGRkAggPZBYEAgEPDxYCHwAFEDMuMzA1NTU1NTU1NTU1NTZkZAIDDw8WAh8ABQlCKyAoMy4zMSlkZAIJD2QWAgIBDw8WAh8AZWRkAoIOD2QWFGYPDxYCHwAFI1Rlcm5hbnNreSwgUm9iZXJ0IEouICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQwMGRkAgMPDxYCHwAFBjY4NjI1NmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4NjI1Nh8ABS9DSEVNIDE0MEMgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSUlJICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNVMTBkZAIDDw8WAh8ABQI5MWRkAgQPZBYCAgEPDxYCHwAFAjc2ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTY4LjQlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgzLjYlZGQCBw9kFgICAQ8PFgIfAAUFMTQuMjFkZAIID2QWBAIBDw8WAh8ABRAyLjk0NTk0NTk0NTk0NTk1ZGQCAw8PFgIfAAUJQi0gKDIuOTUpZGQCCQ9kFgICAQ8PFgIfAGVkZAKDDg9kFhRmDw8WAh8ABSNXZWl6bWFuLCBIYWltICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MDBkZAIDDw8WAh8ABQY2ODU5MTlkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02ODU5MTkfAAUvQ0hFTSAxNDNBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IExhYm9yYXRvcnkgICAoQSlkZAICDw8WAh8ABQRTVTEwZGQCAw8PFgIfAAUCOTJkZAIED2QWAgIBDw8WAh8ABQIzN2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NC42JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4OC45JWRkAgcPZBYCAgEPDxYCHwAFBTExLjU4ZGQCCA9kFgQCAQ8PFgIfAAUQMy4zNjExMTExMTExMTExMWRkAgMPDxYCHwAFCUIrICgzLjM2KWRkAgkPZBYCAgEPDxYCHwBlZGQChA4PZBYUZg8PFgIfAAUjVGVybmFuc2t5LCBSb2JlcnQgSi4gICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDAwZGQCAw8PFgIfAAUGNjg1OTIyZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9Njg1OTIyHwAFL0NIRU0gMTQzQiAgLSBPcmdhbmljIENoZW1pc3RyeSBMYWJvcmF0b3J5ICAgKEEpZGQCAg8PFgIfAAUEU1UxMGRkAgMPDxYCHwAFAjIyZGQCBA9kFgICAQ8PFgIfAAUCMTRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTIuOSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTIuOSVkZAIHD2QWAgIBDw8WAh8ABQQ4LjA3ZGQCCA9kFgQCAQ8PFgIfAAUQMy4zNTcxNDI4NTcxNDI4NmRkAgMPDxYCHwAFCUIrICgzLjM2KWRkAgkPZBYCAgEPDxYCHwBlZGQChQ4PZBYUZg8PFgIfAAUjUnVzc2VsbCwgTHlubiBNLiAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDAwZGQCAw8PFgIfAAUGNjg1OTI0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9Njg1OTI0HwAFL0NIRU0gMTQ5QSAgLSBFbnZpcm9ubWVudGFsIENoZW1pc3RyeSAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1UxMGRkAgMPDxYCHwAFAjMzZGQCBA9kFgICAQ8PFgIfAAUBOWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4OC45JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ1LjYxZGQCCA9kFgQCAQ8PFgIfAAUQMy4zMzMzMzMzMzMzMzMzM2RkAgMPDxYCHwAFCUIrICgzLjMzKWRkAgkPZBYCAgEPDxYCHwBlZGQChg4PZBYUZg8PFgIfAAUjUnVzc2VsbCwgTHlubiBNLiAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDAwZGQCAw8PFgIfAAUGNjg1OTI0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9Njg1OTI0HwAFLUNIRU0gMTcxIC0gRW52aXJvbm1lbnRhbCBDaGVtaXN0cnkgICAgICAgIChBKWRkAgIPDxYCHwAFBFNVMTBkZAIDDw8WAh8ABQIzM2RkAgQPZBYCAgEPDxYCHwAFATlkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODguOSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUENS42MWRkAggPZBYEAgEPDxYCHwAFEDMuMzMzMzMzMzMzMzMzMzNkZAIDDw8WAh8ABQlCKyAoMy4zMylkZAIJD2QWAgIBDw8WAh8AZWRkAocOD2QWFGYPDxYCHwAFI0hvZWdlciwgQ2FybCAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQwMGRkAgMPDxYCHwAFBjY5NjkzOGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY5NjkzOB8ABS1DSEVNIDZBICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQilkZAICDw8WAh8ABQRTVTEwZGQCAw8PFgIfAAUCODBkZAIED2QWAgIBDw8WAh8ABQIyMGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NS4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU2OC40JWRkAgcPZBYCAgEPDxYCHwAFBTExLjgwZGQCCA9kFgQCAQ8PFgIfAAUGMy41NjI1ZGQCAw8PFgIfAAUJQisgKDMuNTYpZGQCCQ9kFgICAQ8PFgIfAGVkZAKIDg9kFhRmDw8WAh8ABSNKb2huc29uLCBDaHJpc3RpbmEgQSAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MDBkZAIDDw8WAh8ABQY2ODYyNDhkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02ODYyNDgfAAUtQ0hFTSA2QiAgLSBHZW5lcmFsIENoZW1pc3RyeSBJSSAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1UxMGRkAgMPDxYCHwAFAjc3ZGQCBA9kFgICAQ8PFgIfAAUCMjBkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODUuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTAuMCVkZAIHD2QWAgIBDw8WAh8ABQUxMC42MGRkAggPZBYEAgEPDxYCHwAFEDMuMDUyNjMxNTc4OTQ3MzdkZAIDDw8WAh8ABQhCICgzLjA1KWRkAgkPZBYCAgEPDxYCHwBlZGQCiQ4PZBYUZg8PFgIfAAUjUG9tZXJveSwgUm9iZXJ0IFMuICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0NDAwZGQCAw8PFgIfAAUGNjg1OTA2ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9Njg1OTA2HwAFLUNIRU0gNkIgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSUkgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNVMTBkZAIDDw8WAh8ABQI1MGRkAgQPZBYCAgEPDxYCHwAFAjEyZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgzLjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkxLjclZGQCBw9kFgICAQ8PFgIfAAUEOS4zM2RkAggPZBYEAgEPDxYCHwAFBDIuNzVkZAIDDw8WAh8ABQlCLSAoMi43NSlkZAIJD2QWAgIBDw8WAh8AZWRkAooOD2QWFGYPDxYCHwAFI0Jlcm5pb2xsZXMsIFNhbmRyaW5lICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQwMGRkAgMPDxYCHwAFBjY4NTkwOGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4NTkwOB8ABS1DSEVNIDZCTCAtIEludHIgSW5vcmdhbmljIENoZW0gTGFib3JhdG9yeSAoQSlkZAICDw8WAh8ABQRTVTEwZGQCAw8PFgIfAAUDMTg4ZGQCBA9kFgICAQ8PFgIfAAUCNzJkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjYuNyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTAuMSVkZAIHD2QWAgIBDw8WAh8ABQUxMi44NmRkAggPZBYEAgEPDxYCHwAFEDMuNTIxNzM5MTMwNDM0NzhkZAIDDw8WAh8ABQlCKyAoMy41MilkZAIJD2QWAgIBDw8WAh8AZWRkAosOD2QWFGYPDxYCHwAFI0hvZWdlciwgQ2FybCAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDQwMGRkAgMPDxYCHwAFBjY4NTkxMWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4NTkxMR8ABS1DSEVNIDZDICAtIEdlbmVyYWwgQ2hlbWlzdHJ5ICBJSUkgICAgICAgICAoQSlkZAICDw8WAh8ABQRTVTEwZGQCAw8PFgIfAAUDMTIxZGQCBA9kFgICAQ8PFgIfAAUCNDRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTAuOSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODYuNCVkZAIHD2QWAgIBDw8WAh8ABQQ4LjIyZGQCCA9kFgQCAQ8PFgIfAAUQMy4xNjI3OTA2OTc2NzQ0MmRkAgMPDxYCHwAFCEIgKDMuMTYpZGQCCQ9kFgICAQ8PFgIfAGVkZAKMDg9kFhRmDw8WAh8ABSNKb2huc29uLCBDaHJpc3RpbmEgQSAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQ0MDBkZAIDDw8WAh8ABQY2ODYyNTBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02ODYyNTAfAAUtQ0hFTSA2QyAgLSBHZW5lcmFsIENoZW1pc3RyeSAgSUlJICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1UxMGRkAgMPDxYCHwAFAzEyOGRkAgQPZBYCAgEPDxYCHwAFAjQ1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk3LjglZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDkuMThkZAIID2QWBAIBDw8WAh8ABRAzLjEzNjM2MzYzNjM2MzY0ZGQCAw8PFgIfAAUIQiAoMy4xNClkZAIJD2QWAgIBDw8WAh8AZWRkAo0OD2QWFGYPDxYCHwAFI0ZlbmcsIERhIEZlaSAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM4MGRkAgMPDxYCHwAFBjY4MjcxMGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4MjcxMB8ABS9DSEVNIDEwMEEgIC0gQW5hbHl0aWNhbCBDaGVtIExhYiAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNQMTBkZAIDDw8WAh8ABQI4OGRkAgQPZBYCAgEPDxYCHwAFAjUwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTczLjUlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgwLjAlZGQCBw9kFgICAQ8PFgIfAAUFMTAuNjZkZAIID2QWBAIBDw8WAh8ABRAzLjM2NzM0NjkzODc3NTUxZGQCAw8PFgIfAAUJQisgKDMuMzcpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4yMDFkZAIDDw8WAh8ABQhCICgzLjIwKWRkAo4OD2QWFGYPDxYCHwAFI1BvbWVyb3ksIFJvYmVydCBTLiAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM4MGRkAgMPDxYCHwAFBjY4MTYwM2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4MTYwMx8ABS9DSEVNIDEwMEIgIC0gRnVuZGFtZW50bHMvSW5zdHJ1bWVudGwgQW5hbHlzIChBKWRkAgIPDxYCHwAFBFNQMTBkZAIDDw8WAh8ABQIxNWRkAgQPZBYCAgEPDxYCHwAFATdkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODUuNyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODUuNyVkZAIHD2QWAgIBDw8WAh8ABQQ3LjkzZGQCCA9kFgQCAQ8PFgIfAAUQMy41NzE0Mjg1NzE0Mjg1N2RkAgMPDxYCHwAFCUIrICgzLjU3KWRkAgkPZBYCAgEPDxYCHwBlZGQCjw4PZBYUZg8PFgIfAAUjUG9tZXJveSwgUm9iZXJ0IFMuICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzgwZGQCAw8PFgIfAAUGNjgxNjA0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjgxNjA0HwAFL0NIRU0gMTAwQkwgLSBJbnN0cnVtZW50YWwgQW5hbHlzaXMgTGFiICAgICAgKEEpZGQCAg8PFgIfAAUEU1AxMGRkAgMPDxYCHwAFAjEzZGQCBA9kFgICAQ8PFgIfAAUBNWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3NS4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3NS4wJWRkAgcPZBYCAgEPDxYCHwAFBTEwLjEwZGQCCA9kFgQCAQ8PFgIfAAUDMy40ZGQCAw8PFgIfAAUJQisgKDMuNDApZGQCCQ9kFgICAQ8PFgIfAGVkZAKQDg9kFhRmDw8WAh8ABQ5NYWdkZSwgRG91Z2xhc2RkAgEPZBYGAgEPDxYCHwAFBDQzODBkZAIDDw8WAh8ABQY2ODE2MDVkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02ODE2MDUfAAUvQ0hFTSAxMDVBICAtIFBoeXNpY2FsIENoZW1pc3RyeSBMYWJvcmF0b3J5ICAoQSlkZAICDw8WAh8ABQRTUDEwZGQCAw8PFgIfAAUCNjVkZAIED2QWAgIBDw8WAh8ABQIzMGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4My4zJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ni43JWRkAgcPZBYCAgEPDxYCHwAFBDkuODNkZAIID2QWBAIBDw8WAh8ABQMzLjVkZAIDDw8WAh8ABQlCKyAoMy41MClkZAIJD2QWBAIBDw8WAh8ABRAzLjIwNTcxNDI4NTcxNDI5ZGQCAw8PFgIfAAUIQiAoMy4yMSlkZAKRDg9kFhRmDw8WAh8ABSNTdHVhcnQsIENocmlzdGluYSAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzODBkZAIDDw8WAh8ABQY2ODE2MDVkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02ODE2MDUfAAUvQ0hFTSAxMDVBICAtIFBoeXNpY2FsIENoZW1pc3RyeSBMYWJvcmF0b3J5ICAoQSlkZAICDw8WAh8ABQRTUDEwZGQCAw8PFgIfAAUCNjVkZAIED2QWAgIBDw8WAh8ABQIyMWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4OC4yJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ4LjM5ZGQCCA9kFgQCAQ8PFgIfAAUDMy41ZGQCAw8PFgIfAAUJQisgKDMuNTApZGQCCQ9kFgQCAQ8PFgIfAAUFMy4xMzRkZAIDDw8WAh8ABQhCICgzLjEzKWRkApIOD2QWFGYPDxYCHwAFI0Nyb3dsZXksIFRob21hcyBFLiAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM4MGRkAgMPDxYCHwAFBjY4MTYwOWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4MTYwOR8ABS1DSEVNIDEwOSAtIE1vbGVjdWxhciBCaW9jaGVtaXN0cnkgTGFiICAgICAoQSlkZAICDw8WAh8ABQRTUDEwZGQCAw8PFgIfAAUCMjhkZAIED2QWAgIBDw8WAh8ABQIxN2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Mi40JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ5LjY4ZGQCCA9kFgQCAQ8PFgIfAAUQMy43MDU4ODIzNTI5NDExOGRkAgMPDxYCHwAFCUEtICgzLjcxKWRkAgkPZBYEAgEPDxYCHwAFBTMuNTI5ZGQCAw8PFgIfAAUJQisgKDMuNTMpZGQCkw4PZBYUZg8PFgIfAAUjR2hvc2gsIEdvdXJpc2Fua2FyICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzgwZGQCAw8PFgIfAAUGNjgxNjEyZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjgxNjEyHwAFLUNIRU0gMTA5IC0gTW9sZWN1bGFyIEJpb2NoZW1pc3RyeSBMYWIgICAgIChCKWRkAgIPDxYCHwAFBFNQMTBkZAIDDw8WAh8ABQIyOGRkAgQPZBYCAgEPDxYCHwAFAjExZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkwLjklZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgxLjglZGQCBw9kFgICAQ8PFgIfAAUENy4wNWRkAggPZBYEAgEPDxYCHwAFEDMuODE4MTgxODE4MTgxODJkZAIDDw8WAh8ABQlBLSAoMy44MilkZAIJD2QWBAIBDw8WAh8ABQUzLjM3OGRkAgMPDxYCHwAFCUIrICgzLjM4KWRkApQOD2QWFGYPDxYCHwAFI0Rvbm9naHVlLCBEYW5pZWwgSi4gICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM4MGRkAgMPDxYCHwAFBjY4MjcxNGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4MjcxNB8ABSxDSEVNIDExIC0gVGhlIFBlcmlvZGljIFRhYmxlICAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNQMTBkZAIDDw8WAh8ABQMxNThkZAIED2QWAgIBDw8WAh8ABQI2M2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NS43JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NS4yJWRkAgcPZBYCAgEPDxYCHwAFBDMuOThkZAIID2QWBAIBDw8WAh8ABRAzLjY4NDIxMDUyNjMxNTc5ZGQCAw8PFgIfAAUJQisgKDMuNjgpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4xODRkZAIDDw8WAh8ABQhCICgzLjE4KWRkApUOD2QWFGYPDxYCHwAFI0Nyb3dsZXksIFRob21hcyBFLiAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM4MGRkAgMPDxYCHwAFBjY4MTYwOWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4MTYwOR8ABS9DSEVNIDExMkIgIC0gTW9sZWN1bGFyIEJpb2NoZW1pc3RyeSBMYWIgICAgIChBKWRkAgIPDxYCHwAFBFNQMTBkZAIDDw8WAh8ABQIyOGRkAgQPZBYCAgEPDxYCHwAFAjE3ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgyLjQlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDkuNjhkZAIID2QWBAIBDw8WAh8ABRAzLjcwNTg4MjM1Mjk0MTE4ZGQCAw8PFgIfAAUJQS0gKDMuNzEpZGQCCQ9kFgQCAQ8PFgIfAAUFMy41MjlkZAIDDw8WAh8ABQlCKyAoMy41MylkZAKWDg9kFhRmDw8WAh8ABSNHaG9zaCwgR291cmlzYW5rYXIgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzODBkZAIDDw8WAh8ABQY2ODE2MTJkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02ODE2MTIfAAUvQ0hFTSAxMTJCICAtIE1vbGVjdWxhciBCaW9jaGVtaXN0cnkgTGFiICAgICAoQilkZAICDw8WAh8ABQRTUDEwZGQCAw8PFgIfAAUCMjhkZAIED2QWAgIBDw8WAh8ABQIxMWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MC45JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4MS44JWRkAgcPZBYCAgEPDxYCHwAFBDcuMDVkZAIID2QWBAIBDw8WAh8ABRAzLjgxODE4MTgxODE4MTgyZGQCAw8PFgIfAAUJQS0gKDMuODIpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4zNzhkZAIDDw8WAh8ABQlCKyAoMy4zOClkZAKXDg9kFhRmDw8WAh8ABSNIb2ZmbWFubiwgQWxleGFuZGVyICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzODBkZAIDDw8WAh8ABQY2ODE2MTVkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02ODE2MTUfAAUvQ0hFTSAxMTRDICAtIEJpb3N5bnRoZXNpcyBvZiBNYWNyb21vbGVjdWxlcyAoQSlkZAICDw8WAh8ABQRTUDEwZGQCAw8PFgIfAAUDMjAxZGQCBA9kFgICAQ8PFgIfAAUCODFkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODcuNSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ2LjY4ZGQCCA9kFgQCAQ8PFgIfAAUGMy4yNjI1ZGQCAw8PFgIfAAUIQiAoMy4yNilkZAIJD2QWBAIBDw8WAh8ABQUyLjcwNmRkAgMPDxYCHwAFCUItICgyLjcxKWRkApgOD2QWFGYPDxYCHwAFI1R1a2V5LCBSb2JlcnQgSCAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM4MGRkAgMPDxYCHwAFBjY4MjcxMmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4MjcxMh8ABS1DSEVNIDExOCAtIFBoYXJtYWNvbG9neSBhbmQgVG94aWNvbG9neSAgICAoQSlkZAICDw8WAh8ABQRTUDEwZGQCAw8PFgIfAAUDMTEwZGQCBA9kFgICAQ8PFgIfAAUCNThkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTguMiVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTMuMCVkZAIHD2QWAgIBDw8WAh8ABQQ2LjE2ZGQCCA9kFgQCAQ8PFgIfAAUQMy40OTA5MDkwOTA5MDkwOWRkAgMPDxYCHwAFCUIrICgzLjQ5KWRkAgkPZBYEAgEPDxYCHwAFBTIuNzA2ZGQCAw8PFgIfAAUJQi0gKDIuNzEpZGQCmQ4PZBYUZg8PFgIfAAUjRmlndWVyb2EsIEpvc2h1YSAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzgwZGQCAw8PFgIfAAUGNjgyNzE3ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjgyNzE3HwAFL0NIRU0gMTIwQSAgLSBJbm9yZ2FuaWMgQ2hlbWlzdHJ5IEkgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1AxMGRkAgMPDxYCHwAFAzEwMmRkAgQPZBYCAgEPDxYCHwAFAjU1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc0LjUlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc4LjIlZGQCBw9kFgICAQ8PFgIfAAUENi41N2RkAggPZBYEAgEPDxYCHwAFEDMuMTE3NjQ3MDU4ODIzNTNkZAIDDw8WAh8ABQhCICgzLjEyKWRkAgkPZBYEAgEPDxYCHwAFBTIuNTk2ZGQCAw8PFgIfAAUJQysgKDIuNjApZGQCmg4PZBYUZg8PFgIfAAUeUmhlaW5nb2xkLCBBcm5vbGQgTCAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM4MGRkAgMPDxYCHwAFBzY4MjcxN0FkZAIFDw8WBB8FBS4uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02ODI3MTdBHwAFL0NIRU0gMTIwQSAgLSBJbm9yZ2FuaWMgQ2hlbWlzdHJ5IEkgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1AxMGRkAgMPDxYCHwAFAzEwMmRkAgQPZBYCAgEPDxYCHwAFAjUwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTcyLjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTYzLjglZGQCBw9kFgICAQ8PFgIfAAUENS45N2RkAggPZBYEAgEPDxYCHwAFEDMuMTM2MzYzNjM2MzYzNjRkZAIDDw8WAh8ABQhCICgzLjE0KWRkAgkPZBYEAgEPDxYCHwAFBTIuNTk2ZGQCAw8PFgIfAAUJQysgKDIuNjApZGQCmw4PZBYUZg8PFgIfAAUjU2FpbG9yLCBNaWNoYWVsIEpvc2VwaCAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzgwZGQCAw8PFgIfAAUGNjgxNTcyZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjgxNTcyHwAFLUNIRU0gMTIzIC0gQWR2YW5jZWQgSW5vcmdhbmljIENoZW0gTGFiICAgIChBKWRkAgIPDxYCHwAFBFNQMTBkZAIDDw8WAh8ABQIxMGRkAgQPZBYCAgEPDxYCHwAFATZkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDYuMTdkZAIID2QWBAIBDw8WAh8ABRAzLjE2NjY2NjY2NjY2NjY3ZGQCAw8PFgIfAAUIQiAoMy4xNylkZAIJD2QWAgIBDw8WAh8AZWRkApwOD2QWFGYPDxYCHwAFI0NvaGVuLCBTZXRoIE0gICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM4MGRkAgMPDxYCHwAFBjY4MTU3M2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4MTU3Mx8ABS1DSEVNIDEyNCAtIEJpb2lub3JnYW5pYyBDaGVtaXN0cnkgICAgICAgICAoQSlkZAICDw8WAh8ABQRTUDEwZGQCAw8PFgIfAAUCMzNkZAIED2QWAgIBDw8WAh8ABQIxOWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3My43JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NC43JWRkAgcPZBYCAgEPDxYCHwAFBDUuNzJkZAIID2QWBAIBDw8WAh8ABQQzLjI1ZGQCAw8PFgIfAAUIQiAoMy4yNSlkZAIJD2QWBAIBDw8WAh8ABQUyLjU4M2RkAgMPDxYCHwAFCUMrICgyLjU4KWRkAp0OD2QWFGYPDxYCHwAFI0NvaGVuLCBTZXRoIE0gICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM4MGRkAgMPDxYCHwAFBjY4MTU3M2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4MTU3Mx8ABS1DSEVNIDEyNSAtIEJpb2lub3JnYW5pYyBDaGVtaXN0cnkgICAgICAgICAoQSlkZAICDw8WAh8ABQRTUDEwZGQCAw8PFgIfAAUCMzNkZAIED2QWAgIBDw8WAh8ABQIxOWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3My43JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NC43JWRkAgcPZBYCAgEPDxYCHwAFBDUuNzJkZAIID2QWBAIBDw8WAh8ABQQzLjI1ZGQCAw8PFgIfAAUIQiAoMy4yNSlkZAIJD2QWBAIBDw8WAh8ABQUyLjU4M2RkAgMPDxYCHwAFCUMrICgyLjU4KWRkAp4OD2QWFGYPDxYCHwAFI0pvc2VwaCwgU2ltcHNvbiAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM4MGRkAgMPDxYCHwAFBjY4MTU2OWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4MTU2OR8ABSxDSEVNIDEzIC0gQ2hlbWlzdHJ5IG9mIExpZmUgICAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNQMTBkZAIDDw8WAh8ABQMxNDVkZAIED2QWAgIBDw8WAh8ABQI2M2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4MS43JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4OC4zJWRkAgcPZBYCAgEPDxYCHwAFBDQuNjBkZAIID2QWBAIBDw8WAh8ABRAzLjMwMjMyNTU4MTM5NTM1ZGQCAw8PFgIfAAUJQisgKDMuMzApZGQCCQ9kFgQCAQ8PFgIfAAUFMy4xMDdkZAIDDw8WAh8ABQhCICgzLjExKWRkAp8OD2QWFGYPDxYCHwAFI0dhbHBlcmluLCBNaWNoYWVsICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM4MGRkAgMPDxYCHwAFBjY4MjcxNWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4MjcxNR8ABS1DSEVNIDEzMyAtIFBoeXNpY2FsIENoZW1pc3RyeSAgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRTUDEwZGQCAw8PFgIfAAUCNjBkZAIED2QWAgIBDw8WAh8ABQIzMWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQUzOC43JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU0MS45JWRkAgcPZBYCAgEPDxYCHwAFBDguMTFkZAIID2QWBAIBDw8WAh8ABRAyLjc4NTcxNDI4NTcxNDI5ZGQCAw8PFgIfAAUJQi0gKDIuNzkpZGQCCQ9kFgQCAQ8PFgIfAAUFMy40MDVkZAIDDw8WAh8ABQlCKyAoMy40MSlkZAKgDg9kFhRmDw8WAh8ABSNZYW5nLCBKZXJyeSAgICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzODBkZAIDDw8WAh8ABQY2ODE2MTZkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02ODE2MTYfAAUvQ0hFTSAxNDBBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRTUDEwZGQCAw8PFgIfAAUDMjk5ZGQCBA9kFgICAQ8PFgIfAAUDMTIwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgyLjQlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgzLjklZGQCBw9kFgICAQ8PFgIfAAUENy44M2RkAggPZBYEAgEPDxYCHwAFEDIuOTkxMjI4MDcwMTc1NDRkZAIDDw8WAh8ABQlCLSAoMi45OSlkZAIJD2QWBAIBDw8WAh8ABQUyLjQxMWRkAgMPDxYCHwAFCUMrICgyLjQxKWRkAqEOD2QWFGYPDxYCHwAFI0hvZWdlciwgQ2FybCAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM4MGRkAgMPDxYCHwAFBjY4MTYxN2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4MTYxNx8ABS9DSEVNIDE0MEIgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSUkgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNQMTBkZAIDDw8WAh8ABQMzNTBkZAIED2QWAgIBDw8WAh8ABQMxNDBkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzMuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODIuNiVkZAIHD2QWAgIBDw8WAh8ABQQ4LjY5ZGQCCA9kFgQCAQ8PFgIfAAUQMi44NzEyMTIxMjEyMTIxMmRkAgMPDxYCHwAFCUItICgyLjg3KWRkAgkPZBYEAgEPDxYCHwAFBTIuNTI3ZGQCAw8PFgIfAAUJQysgKDIuNTMpZGQCog4PZBYUZg8PFgIfAAUjSG9lZ2VyLCBDYXJsICAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzgwZGQCAw8PFgIfAAUGNjgxNjE4ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjgxNjE4HwAFL0NIRU0gMTQwQiAgLSBPcmdhbmljIENoZW1pc3RyeSBJSSAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUEU1AxMGRkAgMPDxYCHwAFAzM2MWRkAgQPZBYCAgEPDxYCHwAFAzE2NWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3MC4xJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3OS42JWRkAgcPZBYCAgEPDxYCHwAFBDkuMDBkZAIID2QWBAIBDw8WAh8ABRAyLjgzNjQ3Nzk4NzQyMTM4ZGQCAw8PFgIfAAUJQi0gKDIuODQpZGQCCQ9kFgQCAQ8PFgIfAAUFMi41MjdkZAIDDw8WAh8ABQlDKyAoMi41MylkZAKjDg9kFhRmDw8WAh8ABSNBbGJpemF0aSwgS2ltIEYuICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzODBkZAIDDw8WAh8ABQY2ODE2MTlkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02ODE2MTkfAAUvQ0hFTSAxNDBDICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IElJSSAgICAgICAgICAoQSlkZAICDw8WAh8ABQRTUDEwZGQCAw8PFgIfAAUDMzY3ZGQCBA9kFgICAQ8PFgIfAAUDMTY2ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg1LjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk5LjQlZGQCBw9kFgICAQ8PFgIfAAUENy40NmRkAggPZBYEAgEPDxYCHwAFDzMuMTQ3NDM1ODk3NDM1OWRkAgMPDxYCHwAFCEIgKDMuMTUpZGQCCQ9kFgQCAQ8PFgIfAAUFMi42MjhkZAIDDw8WAh8ABQlDKyAoMi42MylkZAKkDg9kFhRmDw8WAh8ABSNUZXJuYW5za3ksIFJvYmVydCBKLiAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzODBkZAIDDw8WAh8ABQY2ODE2MjBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02ODE2MjAfAAUvQ0hFTSAxNDBDICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IElJSSAgICAgICAgICAoQilkZAICDw8WAh8ABQRTUDEwZGQCAw8PFgIfAAUDMjQ5ZGQCBA9kFgICAQ8PFgIfAAUDMTM1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgzLjUlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg3LjQlZGQCBw9kFgICAQ8PFgIfAAUFMTAuNTZkZAIID2QWBAIBDw8WAh8ABRAzLjE3MDU0MjYzNTY1ODkxZGQCAw8PFgIfAAUIQiAoMy4xNylkZAIJD2QWBAIBDw8WAh8ABQUyLjcyNmRkAgMPDxYCHwAFCUItICgyLjczKWRkAqUOD2QWFGYPDxYCHwAFI1RvciwgWWl0emhhayAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM4MGRkAgMPDxYCHwAFBjY4MjcxOGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4MjcxOB8ABS9DSEVNIDE0MENIIC0gSG9ub3JzIE9yZ2FuaWMgQ2hlbWlzdHJ5ICAgICAgIChBKWRkAgIPDxYCHwAFBFNQMTBkZAIDDw8WAh8ABQI1NWRkAgQPZBYCAgEPDxYCHwAFAjQwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ2LjIwZGQCCA9kFgQCAQ8PFgIfAAUFMy43MjVkZAIDDw8WAh8ABQlBLSAoMy43MylkZAIJD2QWBAIBDw8WAh8ABQUzLjQ3OGRkAgMPDxYCHwAFCUIrICgzLjQ4KWRkAqYOD2QWFGYPDxYCHwAFI1dlaXptYW4sIEhhaW0gICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM4MGRkAgMPDxYCHwAFBjY4MTYyMmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4MTYyMh8ABS9DSEVNIDE0M0EgIC0gT3JnYW5pYyBDaGVtaXN0cnkgTGFib3JhdG9yeSAgIChBKWRkAgIPDxYCHwAFBFNQMTBkZAIDDw8WAh8ABQMzOTVkZAIED2QWAgIBDw8WAh8ABQMxNjJkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODQuNSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODMuNSVkZAIHD2QWAgIBDw8WAh8ABQQ4LjI5ZGQCCA9kFgQCAQ8PFgIfAAUQMy4yNDE4MzAwNjUzNTk0OGRkAgMPDxYCHwAFCEIgKDMuMjQpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4wMDVkZAIDDw8WAh8ABQhCICgzLjAxKWRkAqcOD2QWFGYPDxYCHwAFI1Rlcm5hbnNreSwgUm9iZXJ0IEouICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM4MGRkAgMPDxYCHwAFBjY4MjcxMWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4MjcxMR8ABS9DSEVNIDE0M0IgIC0gT3JnYW5pYyBDaGVtaXN0cnkgTGFib3JhdG9yeSAgIChBKWRkAgIPDxYCHwAFBFNQMTBkZAIDDw8WAh8ABQI4NGRkAgQPZBYCAgEPDxYCHwAFAjQ2ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTczLjklZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc4LjMlZGQCBw9kFgICAQ8PFgIfAAUENy4xNWRkAggPZBYEAgEPDxYCHwAFDzIuODY5NTY1MjE3MzkxM2RkAgMPDxYCHwAFCUItICgyLjg3KWRkAgkPZBYEAgEPDxYCHwAFBTMuMzgyZGQCAw8PFgIfAAUJQisgKDMuMzgpZGQCqA4PZBYUZg8PFgIfAAUjV2Vpem1hbiwgSGFpbSAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzgwZGQCAw8PFgIfAAUGNjgxNjUwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjgxNjUwHwAFL0NIRU0gMTQzRCAgLSBNb2xlY3VsYXIgRGVzaWduICYgU3ludGhlc2lzICAgKEEpZGQCAg8PFgIfAAUEU1AxMGRkAgMPDxYCHwAFAjE1ZGQCBA9kFgICAQ8PFgIfAAUBOGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUFMTIuNTBkZAIID2QWBAIBDw8WAh8ABQUzLjM3NWRkAgMPDxYCHwAFCUIrICgzLjM4KWRkAgkPZBYCAgEPDxYCHwBlZGQCqQ4PZBYUZg8PFgIfAAUjQnVya2FydCwgTWljaGFlbCBEICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzgwZGQCAw8PFgIfAAUGNjgxNTc1ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjgxNTc1HwAFLUNIRU0gMTU3IC0gTmF0dXJhbCBQcm9kdWN0cyBDaGVtaXN0cnkgICAgIChBKWRkAgIPDxYCHwAFBFNQMTBkZAIDDw8WAh8ABQI2MGRkAgQPZBYCAgEPDxYCHwAFAjI5ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg5LjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkzLjElZGQCBw9kFgICAQ8PFgIfAAUENS45M2RkAggPZBYEAgEPDxYCHwAFDzMuMjk2Mjk2Mjk2Mjk2M2RkAgMPDxYCHwAFCEIgKDMuMzApZGQCCQ9kFgQCAQ8PFgIfAAUFMy4yMzZkZAIDDw8WAh8ABQhCICgzLjI0KWRkAqoOD2QWFGYPDxYCHwAFI0Jha2VyLCBUaW1vdGh5IFN0YW5sZXkgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM4MGRkAgMPDxYCHwAFBjY4ODYwOGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4ODYwOB8ABS1DSEVNIDE2NCAtIFN0cnVjdHVyYWwgQmlvbG9neSBvZiBWaXJ1c2VzICAoQSlkZAICDw8WAh8ABQRTUDEwZGQCAw8PFgIfAAUCMTRkZAIED2QWAgIBDw8WAh8ABQE1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDQuMTBkZAIID2QWBAIBDw8WAh8ABRAzLjMzMzMzMzMzMzMzMzMzZGQCAw8PFgIfAAUJQisgKDMuMzMpZGQCCQ9kFgICAQ8PFgIfAGVkZAKrDg9kFhRmDw8WAh8ABR5Nb2xpbmEsIE1hcmlvICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzgwZGQCAw8PFgIfAAUGNjgyNzIzZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjgyNzIzHwAFLUNIRU0gMTczIC0gQXRtb3NwaGVyaWMgQ2hlbWlzdHJ5ICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNQMTBkZAIDDw8WAh8ABQE5ZGQCBA9kFgICAQ8PFgIfAAUBM2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUENS4xN2RkAggPZBYEAgEPDxYCHwAFEDMuNjY2NjY2NjY2NjY2NjdkZAIDDw8WAh8ABQlCKyAoMy42NylkZAIJD2QWAgIBDw8WAh8AZWRkAqwOD2QWFGYPDxYCHwAFI1ByYXRoZXIsIEtpbWJlcmx5IEEgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM4MGRkAgMPDxYCHwAFBjY4MjcyM2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4MjcyMx8ABS1DSEVNIDE3MyAtIEF0bW9zcGhlcmljIENoZW1pc3RyeSAgICAgICAgICAoQSlkZAICDw8WAh8ABQRTUDEwZGQCAw8PFgIfAAUBOWRkAgQPZBYCAgEPDxYCHwAFATNkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDUuMTdkZAIID2QWBAIBDw8WAh8ABRAzLjY2NjY2NjY2NjY2NjY3ZGQCAw8PFgIfAAUJQisgKDMuNjcpZGQCCQ9kFgICAQ8PFgIfAGVkZAKtDg9kFhRmDw8WAh8ABSNEaWNrc29uLCBBbmRyZXcgR2lsbW9yZSAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzODBkZAIDDw8WAh8ABQY2ODE1NzdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02ODE1NzcfAAUtQ0hFTSAxNzQgLSBDaGVtIFByaW4gb2YgTWFyaW5lIFN5c3RlbXMgICAgKEEpZGQCAg8PFgIfAAUEU1AxMGRkAgMPDxYCHwAFAjUxZGQCBA9kFgICAQ8PFgIfAAUCMjRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzUuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzkuMiVkZAIHD2QWAgIBDw8WAh8ABQQ0LjA4ZGQCCA9kFgQCAQ8PFgIfAAUQMy4zOTEzMDQzNDc4MjYwOWRkAgMPDxYCHwAFCUIrICgzLjM5KWRkAgkPZBYEAgEPDxYCHwAFBDMuMDZkZAIDDw8WAh8ABQhCICgzLjA2KWRkAq4OD2QWFGYPDxYCHwAFI0N6d29ya293c2tpLCBKb2huICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM4MGRkAgMPDxYCHwAFBjY4MjcwNmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4MjcwNh8ABS1DSEVNIDE4OCAtIENhcHN0b25lIFNlbSBpbiBTY2llbmNlIEVkdWN0biAoQSlkZAICDw8WAh8ABQRTUDEwZGQCAw8PFgIfAAUCMTFkZAIED2QWAgIBDw8WAh8ABQE4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ0LjUwZGQCCA9kFgQCAQ8PFgIfAAUDMy41ZGQCAw8PFgIfAAUJQisgKDMuNTApZGQCCQ9kFgICAQ8PFgIfAGVkZAKvDg9kFhRmDw8WAh8ABSNUZXpjYW4sIEZhaWsgICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzODBkZAIDDw8WAh8ABQY2ODI3MjJkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02ODI3MjIfAAUtQ0hFTSA2QSAgLSBHZW5lcmFsIENoZW1pc3RyeSBJICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1AxMGRkAgMPDxYCHwAFAzE1N2RkAgQPZBYCAgEPDxYCHwAFAjc1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgyLjQlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc5LjclZGQCBw9kFgICAQ8PFgIfAAUENi4xNGRkAggPZBYEAgEPDxYCHwAFEDMuMDU3OTcxMDE0NDkyNzVkZAIDDw8WAh8ABQhCICgzLjA2KWRkAgkPZBYEAgEPDxYCHwAFBTEuOTYyZGQCAw8PFgIfAAUJQy0gKDEuOTYpZGQCsA4PZBYUZg8PFgIfAAUjQ3Jvd2VsbCwgSm9obiBFICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzgwZGQCAw8PFgIfAAUGNjgyNzE5ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjgyNzE5HwAFLUNIRU0gNkIgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSUkgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNQMTBkZAIDDw8WAh8ABQMyOTVkZAIED2QWAgIBDw8WAh8ABQMxMTNkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzAuOSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNTMuMiVkZAIHD2QWAgIBDw8WAh8ABQQ3LjM0ZGQCCA9kFgQCAQ8PFgIfAAUQMi42OTA5MDkwOTA5MDkwOWRkAgMPDxYCHwAFCUMrICgyLjY5KWRkAgkPZBYEAgEPDxYCHwAFBTIuMjg3ZGQCAw8PFgIfAAUIQyAoMi4yOSlkZAKxDg9kFhRmDw8WAh8ABSNKb2huc29uLCBDaHJpc3RpbmEgQSAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzODBkZAIDDw8WAh8ABQY2ODMzNzhkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02ODMzNzgfAAUtQ0hFTSA2QiAgLSBHZW5lcmFsIENoZW1pc3RyeSBJSSAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUEU1AxMGRkAgMPDxYCHwAFAzMzM2RkAgQPZBYCAgEPDxYCHwAFAzE1M2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NS44JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5OC4wJWRkAgcPZBYCAgEPDxYCHwAFBDguNTVkZAIID2QWBAIBDw8WAh8ABRAyLjk4NjM5NDU1NzgyMzEzZGQCAw8PFgIfAAUJQi0gKDIuOTkpZGQCCQ9kFgQCAQ8PFgIfAAUFMi41NDZkZAIDDw8WAh8ABQlDKyAoMi41NSlkZAKyDg9kFhRmDw8WAh8ABSNCZXJuaW9sbGVzLCBTYW5kcmluZSAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzODBkZAIDDw8WAh8ABQY2ODE2NThkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02ODE2NTgfAAUtQ0hFTSA2QkwgLSBJbnRyIElub3JnYW5pYyBDaGVtIExhYm9yYXRvcnkgKEEpZGQCAg8PFgIfAAUEU1AxMGRkAgMPDxYCHwAFAzI0N2RkAgQPZBYCAgEPDxYCHwAFAzEyNWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU2OS42JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3OS44JWRkAgcPZBYCAgEPDxYCHwAFBDguOTdkZAIID2QWBAIBDw8WAh8ABRAzLjM1MjQ1OTAxNjM5MzQ0ZGQCAw8PFgIfAAUJQisgKDMuMzUpZGQCCQ9kFgQCAQ8PFgIfAAUFMi45NjVkZAIDDw8WAh8ABQlCLSAoMi45NylkZAKzDg9kFhRmDw8WAh8ABSNCZXJuaW9sbGVzLCBTYW5kcmluZSAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzODBkZAIDDw8WAh8ABQY2ODE2NzhkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02ODE2NzgfAAUtQ0hFTSA2QkwgLSBJbnRyIElub3JnYW5pYyBDaGVtIExhYm9yYXRvcnkgKEIpZGQCAg8PFgIfAAUEU1AxMGRkAgMPDxYCHwAFAzI2N2RkAgQPZBYCAgEPDxYCHwAFAzEzMWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3My40JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3Ny4zJWRkAgcPZBYCAgEPDxYCHwAFBDguODRkZAIID2QWBAIBDw8WAh8ABRAzLjI5MjMwNzY5MjMwNzY5ZGQCAw8PFgIfAAUIQiAoMy4yOSlkZAIJD2QWBAIBDw8WAh8ABQUyLjk2NWRkAgMPDxYCHwAFCUItICgyLjk3KWRkArQOD2QWFGYPDxYCHwAFI0t1YmlhaywgQ2xpZmZvcmQgUGF1bCAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM4MGRkAgMPDxYCHwAFBjY4MzM3OWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4MzM3OR8ABS1DSEVNIDZDICAtIEdlbmVyYWwgQ2hlbWlzdHJ5ICBJSUkgICAgICAgICAoQSlkZAICDw8WAh8ABQRTUDEwZGQCAw8PFgIfAAUDMzUxZGQCBA9kFgICAQ8PFgIfAAUDMTg1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg5LjYlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc1LjglZGQCBw9kFgICAQ8PFgIfAAUENi43MWRkAggPZBYEAgEPDxYCHwAFEDMuMjQ1OTAxNjM5MzQ0MjZkZAIDDw8WAh8ABQhCICgzLjI1KWRkAgkPZBYEAgEPDxYCHwAFBTIuODQ1ZGQCAw8PFgIfAAUJQi0gKDIuODUpZGQCtQ4PZBYUZg8PFgIfAAUjQnJ5ZGdlcywgU3RhY2V5ICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzgwZGQCAw8PFgIfAAUGNjgyNzIwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjgyNzIwHwAFLUNIRU0gNkMgIC0gR2VuZXJhbCBDaGVtaXN0cnkgIElJSSAgICAgICAgIChCKWRkAgIPDxYCHwAFBFNQMTBkZAIDDw8WAh8ABQMxMDJkZAIED2QWAgIBDw8WAh8ABQIzNmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MS40JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Mi45JWRkAgcPZBYCAgEPDxYCHwAFBDUuOTlkZAIID2QWBAIBDw8WAh8ABRAzLjMzMzMzMzMzMzMzMzMzZGQCAw8PFgIfAAUJQisgKDMuMzMpZGQCCQ9kFgQCAQ8PFgIfAAUFMi45ODhkZAIDDw8WAh8ABQlCLSAoMi45OSlkZAK2Dg9kFhRmDw8WAh8ABSNCcnlkZ2VzLCBTdGFjZXkgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzODBkZAIDDw8WAh8ABQY2ODMzODBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02ODMzODAfAAUtQ0hFTSA2QyAgLSBHZW5lcmFsIENoZW1pc3RyeSAgSUlJICAgICAgICAgKEMpZGQCAg8PFgIfAAUEU1AxMGRkAgMPDxYCHwAFAzIyNmRkAgQPZBYCAgEPDxYCHwAFAzEwMGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MC45JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4MS42JWRkAgcPZBYCAgEPDxYCHwAFBDYuNjJkZAIID2QWBAIBDw8WAh8ABRAzLjI0NzQyMjY4MDQxMjM3ZGQCAw8PFgIfAAUIQiAoMy4yNSlkZAIJD2QWBAIBDw8WAh8ABQUyLjk4OGRkAgMPDxYCHwAFCUItICgyLjk5KWRkArcOD2QWFGYPDxYCHwAFI0pvaG5zb24sIENocmlzdGluYSBBICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM4MGRkAgMPDxYCHwAFBjY4MzM4MWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4MzM4MR8ABS1DSEVNIDZDICAtIEdlbmVyYWwgQ2hlbWlzdHJ5ICBJSUkgICAgICAgICAoRClkZAICDw8WAh8ABQRTUDEwZGQCAw8PFgIfAAUDMzQ5ZGQCBA9kFgICAQ8PFgIfAAUDMTc3ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg3LjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk4LjklZGQCBw9kFgICAQ8PFgIfAAUENy45NmRkAggPZBYEAgEPDxYCHwAFDzMuMjg3NDI1MTQ5NzAwNmRkAgMPDxYCHwAFCEIgKDMuMjkpZGQCCQ9kFgQCAQ8PFgIfAAUFMi45NTRkZAIDDw8WAh8ABQlCLSAoMi45NSlkZAK4Dg9kFhRmDw8WAh8ABSNDb2hlbiwgU2V0aCBNICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzODBkZAIDDw8WAh8ABQY2ODI3MTNkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02ODI3MTMfAAUtQ0hFTSA2Q0ggLSBIb25vcnMgR2VuZXJhbCBDaGVtaXN0cnkgSUlJICAgKEEpZGQCAg8PFgIfAAUEU1AxMGRkAgMPDxYCHwAFAjg3ZGQCBA9kFgICAQ8PFgIfAAUCNzJkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODguOSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTguNiVkZAIHD2QWAgIBDw8WAh8ABQQ2LjI4ZGQCCA9kFgQCAQ8PFgIfAAUQMy4zMzgwMjgxNjkwMTQwOGRkAgMPDxYCHwAFCUIrICgzLjM0KWRkAgkPZBYEAgEPDxYCHwAFBTIuNzczZGQCAw8PFgIfAAUJQi0gKDIuNzcpZGQCuQ4PZBYUZg8PFgIfAAUjV2Vpem1hbiwgSGFpbSAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzgwZGQCAw8PFgIfAAUGNjg1MzIxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9Njg1MzIxHwAFLENIRU0gODcgLSBGcmVzaG1hbiBTZW1pbmFyICAgICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1AxMGRkAgMPDxYCHwAFAjE1ZGQCBA9kFgICAQ8PFgIfAAUBOGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ny41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQxLjUwZGQCCA9kFgICAQ8PFgIfAGVkZAIJD2QWAgIBDw8WAh8AZWRkAroOD2QWFGYPDxYCHwAFI1R1a2V5LCBSb2JlcnQgSCAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM4MGRkAgMPDxYCHwAFBjY4MTU3MGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4MTU3MB8ABSxDSEVNIDkyIC0gVW5kZXJncmFkIFBoYXJtYWNvbG9neSBTZW1pbmFyIChBKWRkAgIPDxYCHwAFBFNQMTBkZAIDDw8WAh8ABQMxNTFkZAIED2QWAgIBDw8WAh8ABQI3MWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Mi45JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Ny4xJWRkAgcPZBYCAgEPDxYCHwAFBDEuMDRkZAIID2QWBAIBDw8WAh8ABQMzLjhkZAIDDw8WAh8ABQlBLSAoMy44MClkZAIJD2QWAgIBDw8WAh8AZWRkArsOD2QWFGYPDxYCHwAFI0N6d29ya293c2tpLCBKb2huICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM4MGRkAgMPDxYCHwAFBjY4MTU3MWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY4MTU3MR8ABSxDSEVNIDk2IC0gSW50cm9kdWN0biB0byBUZWFjaGluZyBTY2llbmNlIChBKWRkAgIPDxYCHwAFBFNQMTBkZAIDDw8WAh8ABQIxMmRkAgQPZBYCAgEPDxYCHwAFATVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDQuNTBkZAIID2QWBAIBDw8WAh8ABQMzLjZkZAIDDw8WAh8ABQlCKyAoMy42MClkZAIJD2QWAgIBDw8WAh8AZWRkArwOD2QWFGYPDxYCHwAFI0ZlbmcsIERhIEZlaSAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM3MGRkAgMPDxYCHwAFBjY3NDA5NmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY3NDA5Nh8ABS9DSEVNIDEwMEEgIC0gQW5hbHl0aWNhbCBDaGVtIExhYiAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMTBkZAIDDw8WAh8ABQI1NWRkAgQPZBYCAgEPDxYCHwAFAjI2ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTYxLjUlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTcyLjAlZGQCBw9kFgICAQ8PFgIfAAUFMTIuOTZkZAIID2QWBAIBDw8WAh8ABQMzLjVkZAIDDw8WAh8ABQlCKyAoMy41MClkZAIJD2QWBAIBDw8WAh8ABQUyLjk1MmRkAgMPDxYCHwAFCUItICgyLjk1KWRkAr0OD2QWFGYPDxYCHwAFI1BvbWVyb3ksIFJvYmVydCBTLiAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM3MGRkAgMPDxYCHwAFBjY3NDEwM2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY3NDEwMx8ABS9DSEVNIDEwMEIgIC0gRnVuZGFtZW50bHMvSW5zdHJ1bWVudGwgQW5hbHlzIChBKWRkAgIPDxYCHwAFBFdJMTBkZAIDDw8WAh8ABQIxNWRkAgQPZBYCAgEPDxYCHwAFATZkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODMuMyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUEOC44M2RkAggPZBYEAgEPDxYCHwAFEDIuNjY2NjY2NjY2NjY2NjdkZAIDDw8WAh8ABQlDKyAoMi42NylkZAIJD2QWAgIBDw8WAh8AZWRkAr4OD2QWFGYPDxYCHwAFI1BvbWVyb3ksIFJvYmVydCBTLiAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM3MGRkAgMPDxYCHwAFBjY3NDEwNGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY3NDEwNB8ABS9DSEVNIDEwMEJMIC0gSW5zdHJ1bWVudGFsIEFuYWx5c2lzIExhYiAgICAgIChBKWRkAgIPDxYCHwAFBFdJMTBkZAIDDw8WAh8ABQIxNGRkAgQPZBYCAgEPDxYCHwAFATZkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODMuMyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUEOS4xN2RkAggPZBYEAgEPDxYCHwAFATNkZAIDDw8WAh8ABQhCICgzLjAwKWRkAgkPZBYCAgEPDxYCHwBlZGQCvw4PZBYUZg8PFgIfAAUjS2ltLCBKdWR5IEUuICAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzcwZGQCAw8PFgIfAAUGNjc0MTA1ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9Njc0MTA1HwAFL0NIRU0gMTA1QSAgLSBQaHlzaWNhbCBDaGVtaXN0cnkgTGFib3JhdG9yeSAgKEEpZGQCAg8PFgIfAAUEV0kxMGRkAgMPDxYCHwAFAjMxZGQCBA9kFgICAQ8PFgIfAAUCMTRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODUuNyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODUuNyVkZAIHD2QWAgIBDw8WAh8ABQQ5LjM2ZGQCCA9kFgQCAQ8PFgIfAAUQMy4zODQ2MTUzODQ2MTUzOGRkAgMPDxYCHwAFCUIrICgzLjM4KWRkAgkPZBYEAgEPDxYCHwAFBDIuODlkZAIDDw8WAh8ABQlCLSAoMi44OSlkZALADg9kFhRmDw8WAh8ABSNDcm93bGV5LCBUaG9tYXMgRS4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNzBkZAIDDw8WAh8ABQY2NzQxMTBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NzQxMTAfAAUtQ0hFTSAxMDggLSBNb2xlY3VsYXIgQmlvY2hlbWlzdHJ5IExhYiAgICAgKEEpZGQCAg8PFgIfAAUEV0kxMGRkAgMPDxYCHwAFAjMzZGQCBA9kFgICAQ8PFgIfAAUCMTVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzEuNCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTIuOSVkZAIHD2QWAgIBDw8WAh8ABQQ4LjY0ZGQCCA9kFgQCAQ8PFgIfAAUQMy4zODQ2MTUzODQ2MTUzOGRkAgMPDxYCHwAFCUIrICgzLjM4KWRkAgkPZBYEAgEPDxYCHwAFBTMuMzEyZGQCAw8PFgIfAAUJQisgKDMuMzEpZGQCwQ4PZBYUZg8PFgIfAAUjQ3Jvd2xleSwgVGhvbWFzIEUuICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzcwZGQCAw8PFgIfAAUGNjc0MTEzZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9Njc0MTEzHwAFLUNIRU0gMTA4IC0gTW9sZWN1bGFyIEJpb2NoZW1pc3RyeSBMYWIgICAgIChCKWRkAgIPDxYCHwAFBFdJMTBkZAIDDw8WAh8ABQIyMGRkAgQPZBYCAgEPDxYCHwAFAjEwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ2LjMwZGQCCA9kFgQCAQ8PFgIfAAUDMy41ZGQCAw8PFgIfAAUJQisgKDMuNTApZGQCCQ9kFgQCAQ8PFgIfAAUFMy4zMTJkZAIDDw8WAh8ABQlCKyAoMy4zMSlkZALCDg9kFhRmDw8WAh8ABSNDcm93bGV5LCBUaG9tYXMgRS4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNzBkZAIDDw8WAh8ABQY2NzQxMTBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NzQxMTAfAAUvQ0hFTSAxMTJBICAtIE1vbGVjdWxhciBCaW9jaGVtaXN0cnkgTGFiICAgICAoQSlkZAICDw8WAh8ABQRXSTEwZGQCAw8PFgIfAAUCMzNkZAIED2QWAgIBDw8WAh8ABQIxNWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3MS40JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Mi45JWRkAgcPZBYCAgEPDxYCHwAFBDguNjRkZAIID2QWBAIBDw8WAh8ABRAzLjM4NDYxNTM4NDYxNTM4ZGQCAw8PFgIfAAUJQisgKDMuMzgpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4zMTJkZAIDDw8WAh8ABQlCKyAoMy4zMSlkZALDDg9kFhRmDw8WAh8ABSNDcm93bGV5LCBUaG9tYXMgRS4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNzBkZAIDDw8WAh8ABQY2NzQxMTNkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NzQxMTMfAAUvQ0hFTSAxMTJBICAtIE1vbGVjdWxhciBCaW9jaGVtaXN0cnkgTGFiICAgICAoQilkZAICDw8WAh8ABQRXSTEwZGQCAw8PFgIfAAUCMjBkZAIED2QWAgIBDw8WAh8ABQIxMGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUENi4zMGRkAggPZBYEAgEPDxYCHwAFAzMuNWRkAgMPDxYCHwAFCUIrICgzLjUwKWRkAgkPZBYEAgEPDxYCHwAFBTMuMzEyZGQCAw8PFgIfAAUJQisgKDMuMzEpZGQCxA4PZBYUZg8PFgIfAAUjT3BlbGxhLCBTdGFubGV5IEogICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzcwZGQCAw8PFgIfAAUGNjc0MTE2ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9Njc0MTE2HwAFL0NIRU0gMTE0QSAgLSBCaW9jaGVtaWNhbCBTdHJ1Y3R1cmUmRnVuY3Rpb24gKEEpZGQCAg8PFgIfAAUEV0kxMGRkAgMPDxYCHwAFAjg1ZGQCBA9kFgICAQ8PFgIfAAUCMjlkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg5LjclZGQCBw9kFgICAQ8PFgIfAAUENC4xNmRkAggPZBYEAgEPDxYCHwAFEDMuNjg5NjU1MTcyNDEzNzlkZAIDDw8WAh8ABQlCKyAoMy42OSlkZAIJD2QWBAIBDw8WAh8ABQUyLjg0N2RkAgMPDxYCHwAFCUItICgyLjg1KWRkAsUOD2QWFGYPDxYCHwAFI0RvcnJlc3RlaW4sIFBpZXRlciAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM3MGRkAgMPDxYCHwAFBzY3NDEyMEFkZAIFDw8WBB8FBS4uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NzQxMjBBHwAFL0NIRU0gMTE0QiAgLSBCaW9jaGVtIEVuZXJnZXRpY3MmTWV0YWJvbGlzbSAgKEEpZGQCAg8PFgIfAAUEV0kxMGRkAgMPDxYCHwAFAzE5OGRkAgQPZBYCAgEPDxYCHwAFAjY3ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTczLjElZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgxLjglZGQCBw9kFgICAQ8PFgIfAAUENy4wMWRkAggPZBYEAgEPDxYCHwAFEDMuMzgwOTUyMzgwOTUyMzhkZAIDDw8WAh8ABQlCKyAoMy4zOClkZAIJD2QWBAIBDw8WAh8ABQUyLjY5MWRkAgMPDxYCHwAFCUMrICgyLjY5KWRkAsYOD2QWFGYPDxYCHwAFI1dhbmcsIFdlaSAgICAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM3MGRkAgMPDxYCHwAFBjY3NDEyMGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY3NDEyMB8ABS9DSEVNIDExNEIgIC0gQmlvY2hlbSBFbmVyZ2V0aWNzJk1ldGFib2xpc20gIChBKWRkAgIPDxYCHwAFBFdJMTBkZAIDDw8WAh8ABQMxOThkZAIED2QWAgIBDw8WAh8ABQI2N2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3MC4xJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU0OS4zJWRkAgcPZBYCAgEPDxYCHwAFBDcuMjNkZAIID2QWBAIBDw8WAh8ABRAzLjM1NDgzODcwOTY3NzQyZGQCAw8PFgIfAAUJQisgKDMuMzUpZGQCCQ9kFgQCAQ8PFgIfAAUFMi42OTFkZAIDDw8WAh8ABQlDKyAoMi42OSlkZALHDg9kFhRmDw8WAh8ABSNOYWthZ2F3YSwgVGVydW5hZ2EgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNzBkZAIDDw8WAh8ABQY2NzQwODNkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NzQwODMfAAUsQ0hFTSAxMiAtIE1vbGVjdWxlcyBhbmQgUmVhY3Rpb25zICAgICAgICAoQSlkZAICDw8WAh8ABQRXSTEwZGQCAw8PFgIfAAUDMTc0ZGQCBA9kFgICAQ8PFgIfAAUCNzZkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNDEuMSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFMzIuNCVkZAIHD2QWAgIBDw8WAh8ABQQ0LjQ1ZGQCCA9kFgQCAQ8PFgIfAAUQMi43NjMxNTc4OTQ3MzY4NGRkAgMPDxYCHwAFCUItICgyLjc2KWRkAgkPZBYEAgEPDxYCHwAFBTMuMjg0ZGQCAw8PFgIfAAUIQiAoMy4yOClkZALIDg9kFhRmDw8WAh8ABSNIZW5kcmlja3NvbiwgRGF2aWQgTiAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNzBkZAIDDw8WAh8ABQY2NzQxMjlkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NzQxMjkfAAUvQ0hFTSAxMjBCICAtIElub3JnYW5pYyBDaGVtaXN0cnkgSUkgICAgICAgICAoQSlkZAICDw8WAh8ABQRXSTEwZGQCAw8PFgIfAAUCNjdkZAIED2QWAgIBDw8WAh8ABQIzMWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4My4zJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4MC4wJWRkAgcPZBYCAgEPDxYCHwAFBDMuOTJkZAIID2QWBAIBDw8WAh8ABRAzLjU4MDY0NTE2MTI5MDMyZGQCAw8PFgIfAAUJQisgKDMuNTgpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4zMjNkZAIDDw8WAh8ABQlCKyAoMy4zMilkZALJDg9kFhRmDw8WAh8ABSNTYWlsb3IsIE1pY2hhZWwgSm9zZXBoICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNzBkZAIDDw8WAh8ABQY2NzQxMzRkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NzQxMzQfAAUtQ0hFTSAxMjMgLSBBZHZhbmNlZCBJbm9yZ2FuaWMgQ2hlbSBMYWIgICAgKEEpZGQCAg8PFgIfAAUEV0kxMGRkAgMPDxYCHwAFATlkZAIED2QWAgIBDw8WAh8ABQE2ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ0LjUwZGQCCA9kFgQCAQ8PFgIfAAUQMy42NjY2NjY2NjY2NjY2N2RkAgMPDxYCHwAFCUIrICgzLjY3KWRkAgkPZBYCAgEPDxYCHwBlZGQCyg4PZBYUZg8PFgIfAAUjVGF1YmVyLCBNaWNoYWVsICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzcwZGQCAw8PFgIfAAUGNjc0MTM1ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9Njc0MTM1HwAFLUNIRU0gMTI3IC0gUGh5c2ljYWwgQ2hlbWlzdHJ5ICAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMTBkZAIDDw8WAh8ABQMxNjlkZAIED2QWAgIBDw8WAh8ABQI3M2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU1Mi44JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU2NS44JWRkAgcPZBYCAgEPDxYCHwAFBDguOTRkZAIID2QWBAIBDw8WAh8ABRAzLjE5NzE4MzA5ODU5MTU1ZGQCAw8PFgIfAAUIQiAoMy4yMClkZAIJD2QWBAIBDw8WAh8ABQUyLjU4OWRkAgMPDxYCHwAFCUMrICgyLjU5KWRkAssOD2QWFGYPDxYCHwAFI0xpbmRlbmJlcmcsIEthdGphICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM3MGRkAgMPDxYCHwAFBjY3NDE0NGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY3NDE0NB8ABS1DSEVNIDEzMiAtIFBoeXNpY2FsIENoZW1pc3RyeSAgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRXSTEwZGQCAw8PFgIfAAUCNzlkZAIED2QWAgIBDw8WAh8ABQIzNWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Mi45JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MS40JWRkAgcPZBYCAgEPDxYCHwAFBDguMDRkZAIID2QWBAIBDw8WAh8ABRAzLjMyMzUyOTQxMTc2NDcxZGQCAw8PFgIfAAUJQisgKDMuMzIpZGQCCQ9kFgQCAQ8PFgIfAAUFMi40OTlkZAIDDw8WAh8ABQlDKyAoMi41MClkZALMDg9kFhRmDw8WAh8ABSNHaWFubmVzY2hpLCBOYXRoYW4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNzBkZAIDDw8WAh8ABQY2NzQxNDlkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NzQxNDkfAAUvQ0hFTSAxNDBBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRXSTEwZGQCAw8PFgIfAAUDMzU5ZGQCBA9kFgICAQ8PFgIfAAUDMTQxZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg0LjQlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg4LjclZGQCBw9kFgICAQ8PFgIfAAUEOC4xMGRkAggPZBYEAgEPDxYCHwAFEDMuMTMyMzUyOTQxMTc2NDdkZAIDDw8WAh8ABQhCICgzLjEzKWRkAgkPZBYEAgEPDxYCHwAFBDIuNDdkZAIDDw8WAh8ABQlDKyAoMi40NylkZALNDg9kFhRmDw8WAh8ABSNPY29ubm9yLCBKb3NlcGggTS4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNzBkZAIDDw8WAh8ABQY2NzQxNjBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NzQxNjAfAAUvQ0hFTSAxNDBBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQilkZAICDw8WAh8ABQRXSTEwZGQCAw8PFgIfAAUDMzg1ZGQCBA9kFgICAQ8PFgIfAAUDMTI5ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgyLjIlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkyLjIlZGQCBw9kFgICAQ8PFgIfAAUEOC42MmRkAggPZBYEAgEPDxYCHwAFEDMuMTE4MTEwMjM2MjIwNDdkZAIDDw8WAh8ABQhCICgzLjEyKWRkAgkPZBYEAgEPDxYCHwAFBTIuNjAyZGQCAw8PFgIfAAUJQysgKDIuNjApZGQCzg4PZBYUZg8PFgIfAAUjV2hpdGVzZWxsLCBKYW1lcyBLLiAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzcwZGQCAw8PFgIfAAUGNjc0MTcxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9Njc0MTcxHwAFL0NIRU0gMTQwQSAgLSBPcmdhbmljIENoZW1pc3RyeSBJICAgICAgICAgICAgKEMpZGQCAg8PFgIfAAUEV0kxMGRkAgMPDxYCHwAFAzE0MmRkAgQPZBYCAgEPDxYCHwAFAjM0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgyLjQlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTU1LjklZGQCBw9kFgICAQ8PFgIfAAUENi45N2RkAggPZBYEAgEPDxYCHwAFEDMuMDMyMjU4MDY0NTE2MTNkZAIDDw8WAh8ABQhCICgzLjAzKWRkAgkPZBYEAgEPDxYCHwAFBTIuMzczZGQCAw8PFgIfAAUJQysgKDIuMzcpZGQCzw4PZBYUZg8PFgIfAAUjQnVya2FydCwgTWljaGFlbCBEICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzcwZGQCAw8PFgIfAAUGNjc0MTgzZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9Njc0MTgzHwAFL0NIRU0gMTQwQiAgLSBPcmdhbmljIENoZW1pc3RyeSBJSSAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEV0kxMGRkAgMPDxYCHwAFAzM5MWRkAgQPZBYCAgEPDxYCHwAFAzE5M2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4My45JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Ni4zJWRkAgcPZBYCAgEPDxYCHwAFBDcuODVkZAIID2QWBAIBDw8WAh8ABRAzLjIxMjc2NTk1NzQ0NjgxZGQCAw8PFgIfAAUIQiAoMy4yMSlkZAIJD2QWBAIBDw8WAh8ABQQyLjg4ZGQCAw8PFgIfAAUJQi0gKDIuODgpZGQC0A4PZBYUZg8PFgIfAAUjVGhlb2RvcmFraXMsIEVtbWFub3VpbCAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzcwZGQCAw8PFgIfAAUGNjc0MTk0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9Njc0MTk0HwAFL0NIRU0gMTQwQiAgLSBPcmdhbmljIENoZW1pc3RyeSBJSSAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUEV0kxMGRkAgMPDxYCHwAFAzM2NWRkAgQPZBYCAgEPDxYCHwAFAzEyNWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3MC4yJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Mi4zJWRkAgcPZBYCAgEPDxYCHwAFBDguMjlkZAIID2QWBAIBDw8WAh8ABRAzLjAxNjY2NjY2NjY2NjY3ZGQCAw8PFgIfAAUIQiAoMy4wMilkZAIJD2QWBAIBDw8WAh8ABQUyLjYwM2RkAgMPDxYCHwAFCUMrICgyLjYwKWRkAtEOD2QWFGYPDxYCHwAFI0hvZWdlciwgQ2FybCAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM3MGRkAgMPDxYCHwAFBjY3NDIwNWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY3NDIwNR8ABS9DSEVNIDE0MEIgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSUkgICAgICAgICAgIChDKWRkAgIPDxYCHwAFBFdJMTBkZAIDDw8WAh8ABQMyNzdkZAIED2QWAgIBDw8WAh8ABQI5N2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ni42JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MC42JWRkAgcPZBYCAgEPDxYCHwAFBDkuMzJkZAIID2QWBAIBDw8WAh8ABRAzLjE2NDgzNTE2NDgzNTE2ZGQCAw8PFgIfAAUIQiAoMy4xNilkZAIJD2QWBAIBDw8WAh8ABQUyLjYxNWRkAgMPDxYCHwAFCUMrICgyLjYyKWRkAtIOD2QWFGYPDxYCHwAFI1dlaXptYW4sIEhhaW0gICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM3MGRkAgMPDxYCHwAFBjY3NDIxNmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY3NDIxNh8ABS9DSEVNIDE0MEJIIC0gSG9ub3JzIE9yZ2FuaWMgQ2hlbWlzdHJ5ICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMTBkZAIDDw8WAh8ABQI0OWRkAgQPZBYCAgEPDxYCHwAFAjM1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk0LjElZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk3LjElZGQCBw9kFgICAQ8PFgIfAAUENi40NGRkAggPZBYEAgEPDxYCHwAFEDMuNjg1NzE0Mjg1NzE0MjlkZAIDDw8WAh8ABQlCKyAoMy42OSlkZAIJD2QWBAIBDw8WAh8ABQUzLjgwOGRkAgMPDxYCHwAFCUEtICgzLjgxKWRkAtMOD2QWFGYPDxYCHwAFI0FsYml6YXRpLCBLaW0gRi4gICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM3MGRkAgMPDxYCHwAFBjY3NDIyMGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY3NDIyMB8ABS9DSEVNIDE0MEMgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSUlJICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMTBkZAIDDw8WAh8ABQMzNjBkZAIED2QWAgIBDw8WAh8ABQMxMjJkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODIuOCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTcuNSVkZAIHD2QWAgIBDw8WAh8ABQQ3LjU3ZGQCCA9kFgQCAQ8PFgIfAAUQMy4wNTEyODIwNTEyODIwNWRkAgMPDxYCHwAFCEIgKDMuMDUpZGQCCQ9kFgQCAQ8PFgIfAAUFMi41NDRkZAIDDw8WAh8ABQlDKyAoMi41NClkZALUDg9kFhRmDw8WAh8ABSNUZXJuYW5za3ksIFJvYmVydCBKLiAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNzBkZAIDDw8WAh8ABQY2NzQyMzFkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NzQyMzEfAAUvQ0hFTSAxNDNBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IExhYm9yYXRvcnkgICAoQSlkZAICDw8WAh8ABQRXSTEwZGQCAw8PFgIfAAUDMzczZGQCBA9kFgICAQ8PFgIfAAUDMTY1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc2LjQlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkyLjElZGQCBw9kFgICAQ8PFgIfAAUENi4zNGRkAggPZBYEAgEPDxYCHwAFEDMuMTkwNzg5NDczNjg0MjFkZAIDDw8WAh8ABQhCICgzLjE5KWRkAgkPZBYEAgEPDxYCHwAFBTMuMTA3ZGQCAw8PFgIfAAUIQiAoMy4xMSlkZALVDg9kFhRmDw8WAh8ABSNXZWl6bWFuLCBIYWltICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNzBkZAIDDw8WAh8ABQY2NzQyNTRkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NzQyNTQfAAUvQ0hFTSAxNDNBSCAtIEhvbm9ycyBPcmdhbmljIENoZW1pc3RyeSBMYWIgICAoQSlkZAICDw8WAh8ABQRXSTEwZGQCAw8PFgIfAAUCNDJkZAIED2QWAgIBDw8WAh8ABQIyNGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MS43JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NS44JWRkAgcPZBYCAgEPDxYCHwAFBDcuOTJkZAIID2QWBAIBDw8WAh8ABRAzLjQxNjY2NjY2NjY2NjY3ZGQCAw8PFgIfAAUJQisgKDMuNDIpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4yMTdkZAIDDw8WAh8ABQhCICgzLjIyKWRkAtYOD2QWFGYPDxYCHwAFI1Rlcm5hbnNreSwgUm9iZXJ0IEouICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM3MGRkAgMPDxYCHwAFBjY3NDI1OWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY3NDI1OR8ABS9DSEVNIDE0M0IgIC0gT3JnYW5pYyBDaGVtaXN0cnkgTGFib3JhdG9yeSAgIChBKWRkAgIPDxYCHwAFBFdJMTBkZAIDDw8WAh8ABQI2OGRkAgQPZBYCAgEPDxYCHwAFAjMwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgzLjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgzLjMlZGQCBw9kFgICAQ8PFgIfAAUEOS4zN2RkAggPZBYEAgEPDxYCHwAFEDMuMzMzMzMzMzMzMzMzMzNkZAIDDw8WAh8ABQlCKyAoMy4zMylkZAIJD2QWBAIBDw8WAh8ABQQzLjI3ZGQCAw8PFgIfAAUIQiAoMy4yNylkZALXDg9kFhRmDw8WAh8ABSNQZXJyaW4sIENoYXJsZXMgTC4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNzBkZAIDDw8WAh8ABQY2NzQyNjVkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NzQyNjUfAAUtQ0hFTSAxNDYgLSBLaW5ldGljcyAmIE1lY2hhbiBvZiBPcmcgUmVhY3QgKEEpZGQCAg8PFgIfAAUEV0kxMGRkAgMPDxYCHwAFAjEwZGQCBA9kFgICAQ8PFgIfAAUBNmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4MC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ2LjUwZGQCCA9kFgQCAQ8PFgIfAAUDMy4yZGQCAw8PFgIfAAUIQiAoMy4yMClkZAIJD2QWAgIBDw8WAh8AZWRkAtgOD2QWFGYPDxYCHwAFI1BvbWVyb3ksIFJvYmVydCBTLiAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM3MGRkAgMPDxYCHwAFBjY3NDI2NmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY3NDI2Nh8ABS9DSEVNIDE0OUIgIC0gRW52aXJvbm1lbnRhbCBDaGVtaXN0cnkgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMTBkZAIDDw8WAh8ABQIyOGRkAgQPZBYCAgEPDxYCHwAFAjIxZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk1LjIlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDUuNDVkZAIID2QWBAIBDw8WAh8ABQMzLjJkZAIDDw8WAh8ABQhCICgzLjIwKWRkAgkPZBYEAgEPDxYCHwAFBTMuMDg5ZGQCAw8PFgIfAAUIQiAoMy4wOSlkZALZDg9kFhRmDw8WAh8ABSNXaWxzb24sIEJldGggICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNzBkZAIDDw8WAh8ABQY2NzQwOTJkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NzQwOTIfAAUsQ0hFTSAxNSAtIENoZW1pc3RyeSBvZiB0aGUgVW5pdmVyc2UgICAgICAoQSlkZAICDw8WAh8ABQRXSTEwZGQCAw8PFgIfAAUCNjZkZAIED2QWAgIBDw8WAh8ABQIyM2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3OC4zJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU2MC45JWRkAgcPZBYCAgEPDxYCHwAFBDIuNDFkZAIID2QWBAIBDw8WAh8ABRAzLjI4NTcxNDI4NTcxNDI5ZGQCAw8PFgIfAAUIQiAoMy4yOSlkZAIJD2QWBAIBDw8WAh8ABQUzLjI2MWRkAgMPDxYCHwAFCEIgKDMuMjYpZGQC2g4PZBYUZg8PFgIfAAUjTmljb2xhb3UsIEt5cmlhY29zIEMgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzcwZGQCAw8PFgIfAAUGNjc0MjY3ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9Njc0MjY3HwAFLUNIRU0gMTUxIC0gTW9sZWN1bGVzIFRoYXQgQ2hhbmdlZCBXb3JsZCAgIChBKWRkAgIPDxYCHwAFBFdJMTBkZAIDDw8WAh8ABQMxMDZkZAIED2QWAgIBDw8WAh8ABQI1MGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4OS44JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Mi4wJWRkAgcPZBYCAgEPDxYCHwAFBDQuODJkZAIID2QWBAIBDw8WAh8ABRAzLjU2NTIxNzM5MTMwNDM1ZGQCAw8PFgIfAAUJQisgKDMuNTcpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4xMzFkZAIDDw8WAh8ABQhCICgzLjEzKWRkAtsOD2QWFGYPDxYCHwAFI1lhbmcsIEplcnJ5ICAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM3MGRkAgMPDxYCHwAFBjY3NDI2OWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY3NDI2OR8ABS1DSEVNIDE1NiAtIFN0cnVjdCZQcm9wZXJ0aWVzL09yZ2FuYyBNb2xlYyAoQSlkZAICDw8WAh8ABQRXSTEwZGQCAw8PFgIfAAUCMTdkZAIED2QWAgIBDw8WAh8ABQE3ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg1LjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDYuNTBkZAIID2QWBAIBDw8WAh8ABRAzLjcxNDI4NTcxNDI4NTcxZGQCAw8PFgIfAAUJQS0gKDMuNzEpZGQCCQ9kFgICAQ8PFgIfAGVkZALcDg9kFhRmDw8WAh8ABSNCYWtlciwgVGltb3RoeSBTdGFubGV5ICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNzBkZAIDDw8WAh8ABQY2NzQyNzBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NzQyNzAfAAUtQ0hFTSAxNjUgLSAzRCBFbGN0cm9uIE1pY3Jvc2NvcHkvTWFjcm9tb2wgKEEpZGQCAg8PFgIfAAUEV0kxMGRkAgMPDxYCHwAFAjExZGQCBA9kFgICAQ8PFgIfAAUBNmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUENS41MGRkAggPZBYEAgEPDxYCHwAFATNkZAIDDw8WAh8ABQhCICgzLjAwKWRkAgkPZBYCAgEPDxYCHwBlZGQC3Q4PZBYUZg8PFgIfAAUjUG9tZXJveSwgUm9iZXJ0IFMuICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzcwZGQCAw8PFgIfAAUGNjc0MjY2ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9Njc0MjY2HwAFLUNIRU0gMTcyIC0gRW52aXJvbm1lbnRhbCBDaGVtaXN0cnkgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMTBkZAIDDw8WAh8ABQIyOGRkAgQPZBYCAgEPDxYCHwAFAjIxZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk1LjIlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDUuNDVkZAIID2QWBAIBDw8WAh8ABQMzLjJkZAIDDw8WAh8ABQhCICgzLjIwKWRkAgkPZBYEAgEPDxYCHwAFBTMuMDg5ZGQCAw8PFgIfAAUIQiAoMy4wOSlkZALeDg9kFhRmDw8WAh8ABSNDendvcmtvd3NraSwgSm9obiAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNzBkZAIDDw8WAh8ABQY2NzQyNzNkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NzQyNzMfAAUtQ0hFTSAxODcgLSBGb3VuZG4gb2YgVGVhY2gmTGVhcm4gU2NpZW5jZSAgKEEpZGQCAg8PFgIfAAUEV0kxMGRkAgMPDxYCHwAFAjEzZGQCBA9kFgICAQ8PFgIfAAUBNmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUENC41MGRkAggPZBYEAgEPDxYCHwAFAzMuOGRkAgMPDxYCHwAFCUEtICgzLjgwKWRkAgkPZBYCAgEPDxYCHwBlZGQC3w4PZBYUZg8PFgIfAAUjTmV3c2FtLCBKb2huICAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzcwZGQCAw8PFgIfAAUGNjgzMjM2ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjgzMjM2HwAFLUNIRU0gMTkyIC0gU3IgU2VtaW5hciBpbiBDaGVtICYgQmlvY2hlbSAgIChBKWRkAgIPDxYCHwAFBFdJMTBkZAIDDw8WAh8ABQE2ZGQCBA9kFgICAQ8PFgIfAAUBNGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUEMS4wMGRkAggPZBYCAgEPDxYCHwBlZGQCCQ9kFgICAQ8PFgIfAGVkZALgDg9kFhRmDw8WAh8ABSNTaW5oYSwgQW1pdGFiaGEgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNzBkZAIDDw8WAh8ABQY2NzM5NTdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NzM5NTcfAAUtQ0hFTSA2QSAgLSBHZW5lcmFsIENoZW1pc3RyeSBJICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEV0kxMGRkAgMPDxYCHwAFAzExNmRkAgQPZBYCAgEPDxYCHwAFAjQ4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgwLjQlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTY2LjclZGQCBw9kFgICAQ8PFgIfAAUENy41N2RkAggPZBYEAgEPDxYCHwAFEDIuODYzNjM2MzYzNjM2MzZkZAIDDw8WAh8ABQlCLSAoMi44NilkZAIJD2QWBAIBDw8WAh8ABQUyLjM1OGRkAgMPDxYCHwAFCUMrICgyLjM2KWRkAuEOD2QWFGYPDxYCHwAFI0hvZWdlciwgQ2FybCAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM3MGRkAgMPDxYCHwAFBjY3Mzk2N2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY3Mzk2Nx8ABS1DSEVNIDZBICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQilkZAICDw8WAh8ABQRXSTEwZGQCAw8PFgIfAAUDMzA3ZGQCBA9kFgICAQ8PFgIfAAUDMTQ5ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkwLjYlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk0LjAlZGQCBw9kFgICAQ8PFgIfAAUEOC4yNmRkAggPZBYEAgEPDxYCHwAFEDIuOTY1NzUzNDI0NjU3NTNkZAIDDw8WAh8ABQlCLSAoMi45NylkZAIJD2QWBAIBDw8WAh8ABQUyLjY4OGRkAgMPDxYCHwAFCUMrICgyLjY5KWRkAuIOD2QWFGYPDxYCHwAFI1dlaW5iZXJnZXIsIExlb3IgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM3MGRkAgMPDxYCHwAFBjY3Mzk3N2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY3Mzk3Nx8ABS1DSEVNIDZBICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQylkZAICDw8WAh8ABQRXSTEwZGQCAw8PFgIfAAUDMzAyZGQCBA9kFgICAQ8PFgIfAAUDMjI4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkwLjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc5LjElZGQCBw9kFgICAQ8PFgIfAAUENS42MWRkAggPZBYEAgEPDxYCHwAFEDMuMTUzODQ2MTUzODQ2MTVkZAIDDw8WAh8ABQhCICgzLjE1KWRkAgkPZBYEAgEPDxYCHwAFBTIuODk4ZGQCAw8PFgIfAAUJQi0gKDIuOTApZGQC4w4PZBYUZg8PFgIfAAUjTXVsbGVyLCBVbHJpY2ggSy4gICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzcwZGQCAw8PFgIfAAUGNjczOTg3ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjczOTg3HwAFLUNIRU0gNkIgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSUkgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMTBkZAIDDw8WAh8ABQMxOTZkZAIED2QWAgIBDw8WAh8ABQMxMDVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTEuNCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjUuNyVkZAIHD2QWAgIBDw8WAh8ABQQ1LjA2ZGQCCA9kFgQCAQ8PFgIfAAUQMy4zMzAwOTcwODczNzg2NGRkAgMPDxYCHwAFCUIrICgzLjMzKWRkAgkPZBYEAgEPDxYCHwAFBTIuNjQxZGQCAw8PFgIfAAUJQysgKDIuNjQpZGQC5A4PZBYUZg8PFgIfAAUjQnJ5ZGdlcywgU3RhY2V5ICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzcwZGQCAw8PFgIfAAUGNjczOTk3ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjczOTk3HwAFLUNIRU0gNkIgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSUkgICAgICAgICAgIChCKWRkAgIPDxYCHwAFBFdJMTBkZAIDDw8WAh8ABQI5MmRkAgQPZBYCAgEPDxYCHwAFAjQ0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkzLjIlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkzLjIlZGQCBw9kFgICAQ8PFgIfAAUENy4yM2RkAggPZBYEAgEPDxYCHwAFEDMuMTg2MDQ2NTExNjI3OTFkZAIDDw8WAh8ABQhCICgzLjE5KWRkAgkPZBYEAgEPDxYCHwAFBTIuNzk3ZGQCAw8PFgIfAAUJQi0gKDIuODApZGQC5Q4PZBYUZg8PFgIfAAUjSm9obnNvbiwgQ2hyaXN0aW5hIEEgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzcwZGQCAw8PFgIfAAUGNjc0MDA3ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9Njc0MDA3HwAFLUNIRU0gNkIgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSUkgICAgICAgICAgIChDKWRkAgIPDxYCHwAFBFdJMTBkZAIDDw8WAh8ABQMzNDZkZAIED2QWAgIBDw8WAh8ABQMxNzlkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTAuOSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTMuOCVkZAIHD2QWAgIBDw8WAh8ABQQ4LjQxZGQCCA9kFgQCAQ8PFgIfAAUQMy4yMzEyMTM4NzI4MzIzN2RkAgMPDxYCHwAFCEIgKDMuMjMpZGQCCQ9kFgQCAQ8PFgIfAAUFMi44OTRkZAIDDw8WAh8ABQlCLSAoMi44OSlkZALmDg9kFhRmDw8WAh8ABSNKb2huc29uLCBDaHJpc3RpbmEgQSAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNzBkZAIDDw8WAh8ABQY2NzQwMTdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NzQwMTcfAAUtQ0hFTSA2QiAgLSBHZW5lcmFsIENoZW1pc3RyeSBJSSAgICAgICAgICAgKEQpZGQCAg8PFgIfAAUEV0kxMGRkAgMPDxYCHwAFAzM1MGRkAgQPZBYCAgEPDxYCHwAFAzE3MWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Mi4yJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MS4xJWRkAgcPZBYCAgEPDxYCHwAFBDguODJkZAIID2QWBAIBDw8WAh8ABRAzLjI1MTQ5NzAwNTk4ODAyZGQCAw8PFgIfAAUIQiAoMy4yNSlkZAIJD2QWBAIBDw8WAh8ABQUyLjg5NGRkAgMPDxYCHwAFCUItICgyLjg5KWRkAucOD2QWFGYPDxYCHwAFI0t1bW1lbCwgQW5kcmV3IEMgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM3MGRkAgMPDxYCHwAFBjY3NDAyN2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY3NDAyNx8ABS1DSEVNIDZCICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IElJICAgICAgICAgICAoRSlkZAICDw8WAh8ABQRXSTEwZGQCAw8PFgIfAAUDMzM5ZGQCBA9kFgICAQ8PFgIfAAUDMTg5ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg3LjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgyLjIlZGQCBw9kFgICAQ8PFgIfAAUENy41OGRkAggPZBYEAgEPDxYCHwAFEDMuMDU0NjQ0ODA4NzQzMTdkZAIDDw8WAh8ABQhCICgzLjA1KWRkAgkPZBYEAgEPDxYCHwAFBTIuNjY1ZGQCAw8PFgIfAAUJQysgKDIuNjcpZGQC6A4PZBYUZg8PFgIfAAUjV2VhcmUsIEpvaG4gSC4gICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzcwZGQCAw8PFgIfAAUGNjc0MDM3ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9Njc0MDM3HwAFLUNIRU0gNkJIIC0gSG9ub3JzIEdlbmVyYWwgQ2hlbWlzdHJ5IElJICAgIChBKWRkAgIPDxYCHwAFBFdJMTBkZAIDDw8WAh8ABQMxMThkZAIED2QWAgIBDw8WAh8ABQI2OGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU2MS44JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU0Mi42JWRkAgcPZBYCAgEPDxYCHwAFBDcuNTZkZAIID2QWBAIBDw8WAh8ABRAzLjI0MjQyNDI0MjQyNDI0ZGQCAw8PFgIfAAUIQiAoMy4yNClkZAIJD2QWBAIBDw8WAh8ABQUzLjQ0NWRkAgMPDxYCHwAFCUIrICgzLjQ1KWRkAukOD2QWFGYPDxYCHwAFI0Jlcm5pb2xsZXMsIFNhbmRyaW5lICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM3MGRkAgMPDxYCHwAFBjY3NDA0M2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY3NDA0Mx8ABS1DSEVNIDZCTCAtIEludHIgSW5vcmdhbmljIENoZW0gTGFib3JhdG9yeSAoQSlkZAICDw8WAh8ABQRXSTEwZGQCAw8PFgIfAAUDMjM5ZGQCBA9kFgICAQ8PFgIfAAUCOTNkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzIuNSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzguMCVkZAIHD2QWAgIBDw8WAh8ABQQ4LjU3ZGQCCA9kFgQCAQ8PFgIfAAUQMy4yNDQ0NDQ0NDQ0NDQ0NGRkAgMPDxYCHwAFCEIgKDMuMjQpZGQCCQ9kFgQCAQ8PFgIfAAUFMi44ODRkZAIDDw8WAh8ABQlCLSAoMi44OClkZALqDg9kFhRmDw8WAh8ABSNCZXJuaW9sbGVzLCBTYW5kcmluZSAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNzBkZAIDDw8WAh8ABQY2NzQwNThkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NzQwNTgfAAUtQ0hFTSA2QkwgLSBJbnRyIElub3JnYW5pYyBDaGVtIExhYm9yYXRvcnkgKEIpZGQCAg8PFgIfAAUEV0kxMGRkAgMPDxYCHwAFAzI0MmRkAgQPZBYCAgEPDxYCHwAFAjkxZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTcwLjUlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc4LjclZGQCBw9kFgICAQ8PFgIfAAUEOC4zNGRkAggPZBYEAgEPDxYCHwAFBDMuMjVkZAIDDw8WAh8ABQhCICgzLjI1KWRkAgkPZBYEAgEPDxYCHwAFBTIuODg0ZGQCAw8PFgIfAAUJQi0gKDIuODgpZGQC6w4PZBYUZg8PFgIfAAUjR2hvc2gsIFBhcnRobyAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzcwZGQCAw8PFgIfAAUGNjc0MDczZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9Njc0MDczHwAFLUNIRU0gNkMgIC0gR2VuZXJhbCBDaGVtaXN0cnkgIElJSSAgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMTBkZAIDDw8WAh8ABQMyNjRkZAIED2QWAgIBDw8WAh8ABQMxMDlkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODcuNSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODQuMyVkZAIHD2QWAgIBDw8WAh8ABQQ1LjM4ZGQCCA9kFgQCAQ8PFgIfAAUQMy4xNDcwNTg4MjM1Mjk0MWRkAgMPDxYCHwAFCEIgKDMuMTUpZGQCCQ9kFgQCAQ8PFgIfAAUEMi44MWRkAgMPDxYCHwAFCUItICgyLjgxKWRkAuwOD2QWFGYPDxYCHwAFI0N6d29ya293c2tpLCBKb2huICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM3MGRkAgMPDxYCHwAFBjY3NTU5N2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY3NTU5Nx8ABSxDSEVNIDg3IC0gRnJlc2htYW4gU2VtaW5hciAgICAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMTBkZAIDDw8WAh8ABQIxM2RkAgQPZBYCAgEPDxYCHwAFAThkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDEuMDdkZAIID2QWAgIBDw8WAh8AZWRkAgkPZBYCAgEPDxYCHwBlZGQC7Q4PZBYUZg8PFgIfAAUjV2Vpem1hbiwgSGFpbSAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzcwZGQCAw8PFgIfAAUGNjc1NTk4ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9Njc1NTk4HwAFLENIRU0gODcgLSBGcmVzaG1hbiBTZW1pbmFyICAgICAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUEV0kxMGRkAgMPDxYCHwAFAjE3ZGQCBA9kFgICAQ8PFgIfAAUBOWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU2Ni43JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3Ny44JWRkAgcPZBYCAgEPDxYCHwAFBDAuNTBkZAIID2QWAgIBDw8WAh8AZWRkAgkPZBYCAgEPDxYCHwBlZGQC7g4PZBYUZg8PFgIfAAUjQ3p3b3Jrb3dza2ksIEpvaG4gICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzcwZGQCAw8PFgIfAAUGNjc0MDk1ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9Njc0MDk1HwAFLENIRU0gOTYgLSBJbnRyb2R1Y3RuIHRvIFRlYWNoaW5nIFNjaWVuY2UgKEEpZGQCAg8PFgIfAAUEV0kxMGRkAgMPDxYCHwAFAjE1ZGQCBA9kFgICAQ8PFgIfAAUBOGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ny41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQzLjkzZGQCCA9kFgQCAQ8PFgIfAAUQMy44NTcxNDI4NTcxNDI4NmRkAgMPDxYCHwAFCUEtICgzLjg2KWRkAgkPZBYCAgEPDxYCHwBlZGQC7w4PZBYUZg8PFgIfAAUjRmVuZywgRGEgRmVpICAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzYwZGQCAw8PFgIfAAUGNjYyNDMyZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjYyNDMyHwAFL0NIRU0gMTAwQSAgLSBBbmFseXRpY2FsIENoZW0gTGFiICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUERkEwOWRkAgMPDxYCHwAFAjc1ZGQCBA9kFgICAQ8PFgIfAAUCNjZkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjguMiVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODAuMyVkZAIHD2QWAgIBDw8WAh8ABQQ4LjA1ZGQCCA9kFgQCAQ8PFgIfAAUQMy41NjY2NjY2NjY2NjY2N2RkAgMPDxYCHwAFCUIrICgzLjU3KWRkAgkPZBYEAgEPDxYCHwAFBTMuMTExZGQCAw8PFgIfAAUIQiAoMy4xMSlkZALwDg9kFhRmDw8WAh8ABSNUYXViZXIsIE1pY2hhZWwgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNjBkZAIDDw8WAh8ABQY2NjI0NDFkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NjI0NDEfAAUvQ0hFTSAxMDVBICAtIFBoeXNpY2FsIENoZW1pc3RyeSBMYWJvcmF0b3J5ICAoQSlkZAICDw8WAh8ABQRGQTA5ZGQCAw8PFgIfAAUCMjBkZAIED2QWAgIBDw8WAh8ABQIxOWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU1MC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4My4zJWRkAgcPZBYCAgEPDxYCHwAFBTEwLjA4ZGQCCA9kFgQCAQ8PFgIfAAUQMi45NDExNzY0NzA1ODgyNGRkAgMPDxYCHwAFCUItICgyLjk0KWRkAgkPZBYEAgEPDxYCHwAFBDIuODhkZAIDDw8WAh8ABQlCLSAoMi44OClkZALxDg9kFhRmDw8WAh8ABR5Dcm93bGV5LCBUaG9tYXMgRS4gICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzYwZGQCAw8PFgIfAAUHNjYyNDQ0QWRkAgUPDxYEHwUFLi4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY2MjQ0NEEfAAUtQ0hFTSAxMDggLSBNb2xlY3VsYXIgQmlvY2hlbWlzdHJ5IExhYiAgICAgKEEpZGQCAg8PFgIfAAUERkEwOWRkAgMPDxYCHwAFAjMzZGQCBA9kFgICAQ8PFgIfAAUCMTVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTIuMyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUEOC4xMGRkAggPZBYEAgEPDxYCHwAFEDMuMzg0NjE1Mzg0NjE1MzhkZAIDDw8WAh8ABQlCKyAoMy4zOClkZAIJD2QWBAIBDw8WAh8ABQUzLjI5NWRkAgMPDxYCHwAFCEIgKDMuMzApZGQC8g4PZBYUZg8PFgIfAAUjSmVubmluZ3MsIFBhdHJpY2lhIEEuICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzYwZGQCAw8PFgIfAAUGNjYyNDQ0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjYyNDQ0HwAFLUNIRU0gMTA4IC0gTW9sZWN1bGFyIEJpb2NoZW1pc3RyeSBMYWIgICAgIChBKWRkAgIPDxYCHwAFBEZBMDlkZAIDDw8WAh8ABQIzM2RkAgQPZBYCAgEPDxYCHwAFAjE1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkzLjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg2LjclZGQCBw9kFgICAQ8PFgIfAAUEOC42M2RkAggPZBYEAgEPDxYCHwAFEDMuMzg0NjE1Mzg0NjE1MzhkZAIDDw8WAh8ABQlCKyAoMy4zOClkZAIJD2QWBAIBDw8WAh8ABQUzLjI5NWRkAgMPDxYCHwAFCEIgKDMuMzApZGQC8w4PZBYUZg8PFgIfAAUeQ3Jvd2xleSwgVGhvbWFzIEUuICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM2MGRkAgMPDxYCHwAFBzY2MjQ0N0FkZAIFDw8WBB8FBS4uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NjI0NDdBHwAFLUNIRU0gMTA4IC0gTW9sZWN1bGFyIEJpb2NoZW1pc3RyeSBMYWIgICAgIChCKWRkAgIPDxYCHwAFBEZBMDlkZAIDDw8WAh8ABQIzMGRkAgQPZBYCAgEPDxYCHwAFAjIwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk0LjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk0LjclZGQCBw9kFgICAQ8PFgIfAAUENi40MGRkAggPZBYEAgEPDxYCHwAFEDMuMzE1Nzg5NDczNjg0MjFkZAIDDw8WAh8ABQlCKyAoMy4zMilkZAIJD2QWBAIBDw8WAh8ABQUzLjI5NWRkAgMPDxYCHwAFCEIgKDMuMzApZGQC9A4PZBYUZg8PFgIfAAUjSmVubmluZ3MsIFBhdHJpY2lhIEEuICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzYwZGQCAw8PFgIfAAUGNjYyNDQ3ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjYyNDQ3HwAFLUNIRU0gMTA4IC0gTW9sZWN1bGFyIEJpb2NoZW1pc3RyeSBMYWIgICAgIChCKWRkAgIPDxYCHwAFBEZBMDlkZAIDDw8WAh8ABQIzMGRkAgQPZBYCAgEPDxYCHwAFAjEyZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkxLjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkxLjclZGQCBw9kFgICAQ8PFgIfAAUENi4wMGRkAggPZBYEAgEPDxYCHwAFEDMuMzMzMzMzMzMzMzMzMzNkZAIDDw8WAh8ABQlCKyAoMy4zMylkZAIJD2QWBAIBDw8WAh8ABQUzLjI5NWRkAgMPDxYCHwAFCEIgKDMuMzApZGQC9Q4PZBYUZg8PFgIfAAUjQnJ5ZGdlcywgU3RhY2V5ICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzYwZGQCAw8PFgIfAAUGNjYyNDE4ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjYyNDE4HwAFLENIRU0gMTEgLSBUaGUgUGVyaW9kaWMgVGFibGUgICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUERkEwOWRkAgMPDxYCHwAFAzIxM2RkAgQPZBYCAgEPDxYCHwAFAzE0MWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NC42JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NS42JWRkAgcPZBYCAgEPDxYCHwAFBDMuOThkZAIID2QWBAIBDw8WAh8ABRAzLjMyNzczMTA5MjQzNjk4ZGQCAw8PFgIfAAUJQisgKDMuMzMpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4yMzFkZAIDDw8WAh8ABQhCICgzLjIzKWRkAvYOD2QWFGYPDxYCHwAFI0JyeWRnZXMsIFN0YWNleSAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM2MGRkAgMPDxYCHwAFBjY2MjQyNWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY2MjQyNR8ABSxDSEVNIDExIC0gVGhlIFBlcmlvZGljIFRhYmxlICAgICAgICAgICAgIChCKWRkAgIPDxYCHwAFBEZBMDlkZAIDDw8WAh8ABQMyMTBkZAIED2QWAgIBDw8WAh8ABQMxNTlkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzcuNiVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODUuOCVkZAIHD2QWAgIBDw8WAh8ABQQzLjU3ZGQCCA9kFgQCAQ8PFgIfAAUQMy41Mzg0NjE1Mzg0NjE1NGRkAgMPDxYCHwAFCUIrICgzLjU0KWRkAgkPZBYEAgEPDxYCHwAFBTMuMjMxZGQCAw8PFgIfAAUIQiAoMy4yMylkZAL3Dg9kFhRmDw8WAh8ABR5Dcm93bGV5LCBUaG9tYXMgRS4gICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzYwZGQCAw8PFgIfAAUGNjYyNDQ0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjYyNDQ0HwAFL0NIRU0gMTEyQSAgLSBNb2xlY3VsYXIgQmlvY2hlbWlzdHJ5IExhYiAgICAgKEEpZGQCAg8PFgIfAAUERkEwOWRkAgMPDxYCHwAFAjMzZGQCBA9kFgICAQ8PFgIfAAUCMTVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTIuMyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUEOC4xMGRkAggPZBYEAgEPDxYCHwAFEDMuMzg0NjE1Mzg0NjE1MzhkZAIDDw8WAh8ABQlCKyAoMy4zOClkZAIJD2QWBAIBDw8WAh8ABQUzLjI5NWRkAgMPDxYCHwAFCEIgKDMuMzApZGQC+A4PZBYUZg8PFgIfAAUjSmVubmluZ3MsIFBhdHJpY2lhIEEuICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzYwZGQCAw8PFgIfAAUGNjYyNDQ0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjYyNDQ0HwAFL0NIRU0gMTEyQSAgLSBNb2xlY3VsYXIgQmlvY2hlbWlzdHJ5IExhYiAgICAgKEEpZGQCAg8PFgIfAAUERkEwOWRkAgMPDxYCHwAFAjMzZGQCBA9kFgICAQ8PFgIfAAUCMTVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTMuMyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODYuNyVkZAIHD2QWAgIBDw8WAh8ABQQ4LjYzZGQCCA9kFgQCAQ8PFgIfAAUQMy4zODQ2MTUzODQ2MTUzOGRkAgMPDxYCHwAFCUIrICgzLjM4KWRkAgkPZBYEAgEPDxYCHwAFBTMuMjk1ZGQCAw8PFgIfAAUIQiAoMy4zMClkZAL5Dg9kFhRmDw8WAh8ABR5Dcm93bGV5LCBUaG9tYXMgRS4gICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzYwZGQCAw8PFgIfAAUGNjYyNDQ3ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjYyNDQ3HwAFL0NIRU0gMTEyQSAgLSBNb2xlY3VsYXIgQmlvY2hlbWlzdHJ5IExhYiAgICAgKEIpZGQCAg8PFgIfAAUERkEwOWRkAgMPDxYCHwAFAjMwZGQCBA9kFgICAQ8PFgIfAAUCMjBkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTQuNyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTQuNyVkZAIHD2QWAgIBDw8WAh8ABQQ2LjQwZGQCCA9kFgQCAQ8PFgIfAAUQMy4zMzMzMzMzMzMzMzMzM2RkAgMPDxYCHwAFCUIrICgzLjMzKWRkAgkPZBYEAgEPDxYCHwAFBTMuMjk1ZGQCAw8PFgIfAAUIQiAoMy4zMClkZAL6Dg9kFhRmDw8WAh8ABSNKZW5uaW5ncywgUGF0cmljaWEgQS4gICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNjBkZAIDDw8WAh8ABQY2NjI0NDdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NjI0NDcfAAUvQ0hFTSAxMTJBICAtIE1vbGVjdWxhciBCaW9jaGVtaXN0cnkgTGFiICAgICAoQilkZAICDw8WAh8ABQRGQTA5ZGQCAw8PFgIfAAUCMzBkZAIED2QWAgIBDw8WAh8ABQIxMmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MS43JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MS43JWRkAgcPZBYCAgEPDxYCHwAFBDYuMDBkZAIID2QWBAIBDw8WAh8ABRAzLjMzMzMzMzMzMzMzMzMzZGQCAw8PFgIfAAUJQisgKDMuMzMpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4yOTVkZAIDDw8WAh8ABQhCICgzLjMwKWRkAvsOD2QWFGYPDxYCHwAFI1ZpYWRpdSwgSGVjdG9yICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM2MGRkAgMPDxYCHwAFBjY2MjQ1MGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY2MjQ1MB8ABS9DSEVNIDExNEEgIC0gQmlvY2hlbWljYWwgU3RydWN0dXJlJkZ1bmN0aW9uIChBKWRkAgIPDxYCHwAFBEZBMDlkZAIDDw8WAh8ABQMxOTBkZAIED2QWAgIBDw8WAh8ABQMxNTRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODkuNSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODQuOCVkZAIHD2QWAgIBDw8WAh8ABQQ1Ljc1ZGQCCA9kFgQCAQ8PFgIfAAUQMy4zOTU4MzMzMzMzMzMzM2RkAgMPDxYCHwAFCUIrICgzLjQwKWRkAgkPZBYEAgEPDxYCHwAFBTIuOTg3ZGQCAw8PFgIfAAUJQi0gKDIuOTkpZGQC/A4PZBYUZg8PFgIfAAUjSGVuZHJpY2tzb24sIERhdmlkIE4gICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzYwZGQCAw8PFgIfAAUGNjYyNDYwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjYyNDYwHwAFL0NIRU0gMTIwQSAgLSBJbm9yZ2FuaWMgQ2hlbWlzdHJ5IEkgICAgICAgICAgKEEpZGQCAg8PFgIfAAUERkEwOWRkAgMPDxYCHwAFAzE5M2RkAgQPZBYCAgEPDxYCHwAFAjc5ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk0LjglZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk2LjElZGQCBw9kFgICAQ8PFgIfAAUENC4xMmRkAggPZBYEAgEPDxYCHwAFEDMuNzU2NDEwMjU2NDEwMjZkZAIDDw8WAh8ABQlBLSAoMy43NilkZAIJD2QWBAIBDw8WAh8ABQUzLjMxOWRkAgMPDxYCHwAFCUIrICgzLjMyKWRkAv0OD2QWFGYPDxYCHwAFI0Nyb3dlbGwsIEpvaG4gRSAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM2MGRkAgMPDxYCHwAFBjY2MjQ2OWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY2MjQ2OR8ABS1DSEVNIDEyNiAtIFBoeXNpY2FsIENoZW1pc3RyeSAgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTA5ZGQCAw8PFgIfAAUDMTYxZGQCBA9kFgICAQ8PFgIfAAUCMzJkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjkuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzkuMyVkZAIHD2QWAgIBDw8WAh8ABQQ4LjQ0ZGQCCA9kFgQCAQ8PFgIfAAUPMy4zNDQ4Mjc1ODYyMDY5ZGQCAw8PFgIfAAUJQisgKDMuMzQpZGQCCQ9kFgQCAQ8PFgIfAAUEMi41NGRkAgMPDxYCHwAFCUMrICgyLjU0KWRkAv4OD2QWFGYPDxYCHwAFI0xpbmRlbmJlcmcsIEthdGphICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM2MGRkAgMPDxYCHwAFBjY2MjQ3OGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY2MjQ3OB8ABS1DSEVNIDEzMSAtIFBoeXNpY2FsIENoZW1pc3RyeSAgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTA5ZGQCAw8PFgIfAAUDMTAwZGQCBA9kFgICAQ8PFgIfAAUCNjlkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjkuMSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODAuOSVkZAIHD2QWAgIBDw8WAh8ABQQ5LjA4ZGQCCA9kFgQCAQ8PFgIfAAUQMy4xMTk0MDI5ODUwNzQ2M2RkAgMPDxYCHwAFCEIgKDMuMTIpZGQCCQ9kFgQCAQ8PFgIfAAUFMi4zNjZkZAIDDw8WAh8ABQlDKyAoMi4zNylkZAL/Dg9kFhRmDw8WAh8ABSNUZXJuYW5za3ksIFJvYmVydCBKLiAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNjBkZAIDDw8WAh8ABQY2NjI0ODNkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NjI0ODMfAAUvQ0hFTSAxNDBBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTA5ZGQCAw8PFgIfAAUDMjE1ZGQCBA9kFgICAQ8PFgIfAAUDMTkxZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgzLjIlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk1LjMlZGQCBw9kFgICAQ8PFgIfAAUEOS40OWRkAggPZBYEAgEPDxYCHwAFEDMuMTk1NjUyMTczOTEzMDRkZAIDDw8WAh8ABQhCICgzLjIwKWRkAgkPZBYEAgEPDxYCHwAFBTIuNzIyZGQCAw8PFgIfAAUJQi0gKDIuNzIpZGQCgA8PZBYUZg8PFgIfAAUjV2hpdGVzZWxsLCBKYW1lcyBLLiAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzYwZGQCAw8PFgIfAAUGNjYyNDk0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjYyNDk0HwAFL0NIRU0gMTQwQSAgLSBPcmdhbmljIENoZW1pc3RyeSBJICAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUERkEwOWRkAgMPDxYCHwAFAzE3NmRkAgQPZBYCAgEPDxYCHwAFAjcwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgxLjIlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTYwLjklZGQCBw9kFgICAQ8PFgIfAAUENi40MWRkAggPZBYEAgEPDxYCHwAFCDMuNDIxODc1ZGQCAw8PFgIfAAUJQisgKDMuNDIpZGQCCQ9kFgQCAQ8PFgIfAAUFMi4xOTNkZAIDDw8WAh8ABQhDICgyLjE5KWRkAoEPD2QWFGYPDxYCHwAFI1BlcnJpbiwgQ2hhcmxlcyBMLiAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM2MGRkAgMPDxYCHwAFBjY2MjUwNWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY2MjUwNR8ABS9DSEVNIDE0MEEgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSSAgICAgICAgICAgIChDKWRkAgIPDxYCHwAFBEZBMDlkZAIDDw8WAh8ABQMzMzZkZAIED2QWAgIBDw8WAh8ABQMyNTVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTEuOCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTYuMCVkZAIHD2QWAgIBDw8WAh8ABQQ3LjIwZGQCCA9kFgQCAQ8PFgIfAAUQMy4yMzE3MDczMTcwNzMxN2RkAgMPDxYCHwAFCEIgKDMuMjMpZGQCCQ9kFgQCAQ8PFgIfAAUEMi42OGRkAgMPDxYCHwAFCUMrICgyLjY4KWRkAoIPD2QWFGYPDxYCHwAFI0FsYml6YXRpLCBLaW0gRi4gICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM2MGRkAgMPDxYCHwAFBjY2NzIxMmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY2NzIxMh8ABS9DSEVNIDE0MEEgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSSAgICAgICAgICAgIChEKWRkAgIPDxYCHwAFBEZBMDlkZAIDDw8WAh8ABQMyOTZkZAIED2QWAgIBDw8WAh8ABQMyMzhkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTEuMSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTkuMiVkZAIHD2QWAgIBDw8WAh8ABQQ3LjA1ZGQCCA9kFgQCAQ8PFgIfAAUQMy4yMzA3NjkyMzA3NjkyM2RkAgMPDxYCHwAFCEIgKDMuMjMpZGQCCQ9kFgQCAQ8PFgIfAAUFMi43MjNkZAIDDw8WAh8ABQlCLSAoMi43MilkZAKDDw9kFhRmDw8WAh8ABSNLb2JheWFzaGksIFlvc2hpaGlzYSAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNjBkZAIDDw8WAh8ABQY2NjI1MTZkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NjI1MTYfAAUvQ0hFTSAxNDBCICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IElJICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTA5ZGQCAw8PFgIfAAUDMzQ0ZGQCBA9kFgICAQ8PFgIfAAUCODZkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjkuNCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFMzkuMyVkZAIHD2QWAgIBDw8WAh8ABQQ2LjgzZGQCCA9kFgQCAQ8PFgIfAAUQMy4wMzU3MTQyODU3MTQyOWRkAgMPDxYCHwAFCEIgKDMuMDQpZGQCCQ9kFgQCAQ8PFgIfAAUFMi40OTlkZAIDDw8WAh8ABQlDKyAoMi41MClkZAKEDw9kFhRmDw8WAh8ABSNIZXJtYW5uLCBUaG9tYXMgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNjBkZAIDDw8WAh8ABQY2NjI1MjdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NjI1MjcfAAUvQ0hFTSAxNDBDICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IElJSSAgICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTA5ZGQCAw8PFgIfAAUDMjc5ZGQCBA9kFgICAQ8PFgIfAAUDMTk1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg2LjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg5LjclZGQCBw9kFgICAQ8PFgIfAAUENi41OWRkAggPZBYEAgEPDxYCHwAFEDMuMzU5MTE2MDIyMDk5NDVkZAIDDw8WAh8ABQlCKyAoMy4zNilkZAIJD2QWBAIBDw8WAh8ABQUyLjczMWRkAgMPDxYCHwAFCUItICgyLjczKWRkAoUPD2QWFGYPDxYCHwAFI1dlaXptYW4sIEhhaW0gICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM2MGRkAgMPDxYCHwAFBjY2MjUzOGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY2MjUzOB8ABS9DSEVNIDE0M0EgIC0gT3JnYW5pYyBDaGVtaXN0cnkgTGFib3JhdG9yeSAgIChBKWRkAgIPDxYCHwAFBEZBMDlkZAIDDw8WAh8ABQM0NjhkZAIED2QWAgIBDw8WAh8ABQMxNzdkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODEuNCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTMuMCVkZAIHD2QWAgIBDw8WAh8ABQQ3LjY3ZGQCCA9kFgQCAQ8PFgIfAAUQMy4zNjkwNDc2MTkwNDc2MmRkAgMPDxYCHwAFCUIrICgzLjM3KWRkAgkPZBYEAgEPDxYCHwAFBTMuMDE1ZGQCAw8PFgIfAAUIQiAoMy4wMilkZAKGDw9kFhRmDw8WAh8ABSNUZXJuYW5za3ksIFJvYmVydCBKLiAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNjBkZAIDDw8WAh8ABQY2NjI1NjJkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NjI1NjIfAAUvQ0hFTSAxNDNDICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IExhYm9yYXRvcnkgICAoQSlkZAICDw8WAh8ABQRGQTA5ZGQCAw8PFgIfAAUCNzFkZAIED2QWAgIBDw8WAh8ABQI2NGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MC41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Ni44JWRkAgcPZBYCAgEPDxYCHwAFBDUuNzFkZAIID2QWBAIBDw8WAh8ABQMzLjNkZAIDDw8WAh8ABQlCKyAoMy4zMClkZAIJD2QWBAIBDw8WAh8ABQUzLjIwN2RkAgMPDxYCHwAFCEIgKDMuMjEpZGQChw8PZBYUZg8PFgIfAAUjUG9tZXJveSwgUm9iZXJ0IFMuICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzYwZGQCAw8PFgIfAAUGNjYyNTY4ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjYyNTY4HwAFL0NIRU0gMTQ5QSAgLSBFbnZpcm9ubWVudGFsIENoZW1pc3RyeSAgICAgICAgKEEpZGQCAg8PFgIfAAUERkEwOWRkAgMPDxYCHwAFAjc1ZGQCBA9kFgICAQ8PFgIfAAUCNThkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTYuNSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTQuOCVkZAIHD2QWAgIBDw8WAh8ABQQ0Ljg0ZGQCCA9kFgQCAQ8PFgIfAAUPMy4zODU5NjQ5MTIyODA3ZGQCAw8PFgIfAAUJQisgKDMuMzkpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4yMDFkZAIDDw8WAh8ABQhCICgzLjIwKWRkAogPD2QWFGYPDxYCHwAFI09jb25ub3IsIEpvc2VwaCBNLiAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM2MGRkAgMPDxYCHwAFBjY2MjU3MmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY2MjU3Mh8ABS1DSEVNIDE1MiAtIFN5bnRoZXRpYyBNZXRob2RzL09yZ2FuaWMgQ2hlbSAoQSlkZAICDw8WAh8ABQRGQTA5ZGQCAw8PFgIfAAUCMjJkZAIED2QWAgIBDw8WAh8ABQIyNmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3My4xJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Ni4yJWRkAgcPZBYCAgEPDxYCHwAFBDMuNDJkZAIID2QWBAIBDw8WAh8ABRAzLjU3NjkyMzA3NjkyMzA4ZGQCAw8PFgIfAAUJQisgKDMuNTgpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4yNjhkZAIDDw8WAh8ABQhCICgzLjI3KWRkAokPD2QWFGYPDxYCHwAFI1RvciwgWWl0emhhayAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM2MGRkAgMPDxYCHwAFBjY2MjU3M2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY2MjU3Mx8ABS1DSEVNIDE1NCAtIE1lY2hhbmlzbXMvT3JnYW5pYyBSZWFjdGlvbnMgICAoQSlkZAICDw8WAh8ABQRGQTA5ZGQCAw8PFgIfAAUCNDhkZAIED2QWAgIBDw8WAh8ABQI1NmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTguMiVkZAIHD2QWAgIBDw8WAh8ABQQ0LjY0ZGQCCA9kFgQCAQ8PFgIfAAUQMy41MjgzMDE4ODY3OTI0NWRkAgMPDxYCHwAFCUIrICgzLjUzKWRkAgkPZBYEAgEPDxYCHwAFBTMuNjE3ZGQCAw8PFgIfAAUJQisgKDMuNjIpZGQCig8PZBYUZg8PFgIfAAUjUG9tZXJveSwgUm9iZXJ0IFMuICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzYwZGQCAw8PFgIfAAUGNjYyNTY4ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjYyNTY4HwAFLUNIRU0gMTcxIC0gRW52aXJvbm1lbnRhbCBDaGVtaXN0cnkgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMDlkZAIDDw8WAh8ABQI3NWRkAgQPZBYCAgEPDxYCHwAFAjU4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk2LjUlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk0LjglZGQCBw9kFgICAQ8PFgIfAAUENC44NGRkAggPZBYEAgEPDxYCHwAFDzMuMzg1OTY0OTEyMjgwN2RkAgMPDxYCHwAFCUIrICgzLjM5KWRkAgkPZBYEAgEPDxYCHwAFBTMuMjAxZGQCAw8PFgIfAAUIQiAoMy4yMClkZAKLDw9kFhRmDw8WAh8ABSNLaW0sIEp1ZHkgRS4gICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNjBkZAIDDw8WAh8ABQY2NjY1NTVkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NjY1NTUfAAUtQ0hFTSAxOTIgLSBTciBTZW1pbmFyIGluIENoZW0gJiBCaW9jaGVtICAgKEEpZGQCAg8PFgIfAAUERkEwOWRkAgMPDxYCHwAFATZkZAIED2QWAgIBDw8WAh8ABQE1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQxLjcwZGQCCA9kFgICAQ8PFgIfAGVkZAIJD2QWAgIBDw8WAh8AZWRkAowPD2QWFGYPDxYCHwAFI0hvZWdlciwgQ2FybCAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM2MGRkAgMPDxYCHwAFBjY2MjI5MWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY2MjI5MR8ABStDSEVNIDQgLSBCYXNpYyBDaGVtaXN0cnkgICAgICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUERkEwOWRkAgMPDxYCHwAFAzI5N2RkAgQPZBYCAgEPDxYCHwAFAzEyM2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NS4xJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NS45JWRkAgcPZBYCAgEPDxYCHwAFBDUuNzBkZAIID2QWBAIBDw8WAh8ABRAzLjA2NjY2NjY2NjY2NjY3ZGQCAw8PFgIfAAUIQiAoMy4wNylkZAIJD2QWBAIBDw8WAh8ABQUyLjg1MWRkAgMPDxYCHwAFCUItICgyLjg1KWRkAo0PD2QWFGYPDxYCHwAFI0N6d29ya293c2tpLCBKb2huICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM2MGRkAgMPDxYCHwAFBjY2MjMwNGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY2MjMwNB8ABS1DSEVNIDZBICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTA5ZGQCAw8PFgIfAAUDMjUyZGQCBA9kFgICAQ8PFgIfAAUDMjAxZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgyLjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTY0LjAlZGQCBw9kFgICAQ8PFgIfAAUENS45NGRkAggPZBYEAgEPDxYCHwAFEDMuMDY2MzI2NTMwNjEyMjRkZAIDDw8WAh8ABQhCICgzLjA3KWRkAgkPZBYEAgEPDxYCHwAFBTIuNjc1ZGQCAw8PFgIfAAUJQysgKDIuNjgpZGQCjg8PZBYUZg8PFgIfAAUjQ3p3b3Jrb3dza2ksIEpvaG4gICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzYwZGQCAw8PFgIfAAUGNjYyMzE0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjYyMzE0HwAFLUNIRU0gNkEgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSSAgICAgICAgICAgIChCKWRkAgIPDxYCHwAFBEZBMDlkZAIDDw8WAh8ABQMyNzlkZAIED2QWAgIBDw8WAh8ABQMyMjhkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODYuMyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjEuOSVkZAIHD2QWAgIBDw8WAh8ABQQ2LjY4ZGQCCA9kFgQCAQ8PFgIfAAUQMy4wODkyODU3MTQyODU3MWRkAgMPDxYCHwAFCEIgKDMuMDkpZGQCCQ9kFgQCAQ8PFgIfAAUFMi42NzVkZAIDDw8WAh8ABQlDKyAoMi42OClkZAKPDw9kFhRmDw8WAh8ABSNKb2huc29uLCBDaHJpc3RpbmEgQSAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNjBkZAIDDw8WAh8ABQY2NjIzMjRkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NjIzMjQfAAUtQ0hFTSA2QSAgLSBHZW5lcmFsIENoZW1pc3RyeSBJICAgICAgICAgICAgKEMpZGQCAg8PFgIfAAUERkEwOWRkAgMPDxYCHwAFAzM0MGRkAgQPZBYCAgEPDxYCHwAFAzI4OWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NS44JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5OS4zJWRkAgcPZBYCAgEPDxYCHwAFBDcuNTZkZAIID2QWBAIBDw8WAh8ABRAzLjI2ODU1MTIzNjc0OTEyZGQCAw8PFgIfAAUIQiAoMy4yNylkZAIJD2QWBAIBDw8WAh8ABQUyLjg4NGRkAgMPDxYCHwAFCUItICgyLjg4KWRkApAPD2QWFGYPDxYCHwAFI1N0dWFydCwgQ2hyaXN0aW5hICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM2MGRkAgMPDxYCHwAFBjY2MjMzNGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY2MjMzNB8ABS1DSEVNIDZBICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoRClkZAICDw8WAh8ABQRGQTA5ZGQCAw8PFgIfAAUDMzMzZGQCBA9kFgICAQ8PFgIfAAUDMjQ4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkzLjglZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkyLjElZGQCBw9kFgICAQ8PFgIfAAUENy42OGRkAggPZBYEAgEPDxYCHwAFEDMuMDg2MDY1NTczNzcwNDlkZAIDDw8WAh8ABQhCICgzLjA5KWRkAgkPZBYEAgEPDxYCHwAFBTIuNjYyZGQCAw8PFgIfAAUJQysgKDIuNjYpZGQCkQ8PZBYUZg8PFgIfAAUjU3R1YXJ0LCBDaHJpc3RpbmEgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzYwZGQCAw8PFgIfAAUGNjYyMzQ0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjYyMzQ0HwAFLUNIRU0gNkEgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSSAgICAgICAgICAgIChFKWRkAgIPDxYCHwAFBEZBMDlkZAIDDw8WAh8ABQMzMjhkZAIED2QWAgIBDw8WAh8ABQMyMjJkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTIuMyVkZAIHD2QWAgIBDw8WAh8ABQQ3LjQwZGQCCA9kFgQCAQ8PFgIfAAUQMy4wOTYzMzAyNzUyMjkzNmRkAgMPDxYCHwAFCEIgKDMuMTApZGQCCQ9kFgQCAQ8PFgIfAAUFMi42NjJkZAIDDw8WAh8ABQlDKyAoMi42NilkZAKSDw9kFhRmDw8WAh8ABSNIb2VnZXIsIENhcmwgICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNjBkZAIDDw8WAh8ABQY2NjIzNTRkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NjIzNTQfAAUtQ0hFTSA2QUggLSBIb25vcnMgR2VuZXJhbCBDaGVtaXN0cnkgSSAgICAgKEEpZGQCAg8PFgIfAAUERkEwOWRkAgMPDxYCHwAFAzE1MWRkAgQPZBYCAgEPDxYCHwAFAjk4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc5LjYlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk5LjAlZGQCBw9kFgICAQ8PFgIfAAUENy41MmRkAggPZBYEAgEPDxYCHwAFEDMuMDMyNjA4Njk1NjUyMTdkZAIDDw8WAh8ABQhCICgzLjAzKWRkAgkPZBYEAgEPDxYCHwAFBTIuNzk4ZGQCAw8PFgIfAAUJQi0gKDIuODApZGQCkw8PZBYUZg8PFgIfAAUjS2ltLCBKdWR5IEUuICAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzYwZGQCAw8PFgIfAAUGNjYyMzYwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjYyMzYwHwAFLUNIRU0gNkIgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSUkgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMDlkZAIDDw8WAh8ABQMyNjlkZAIED2QWAgIBDw8WAh8ABQMxNjdkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODMuNiVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzkuMyVkZAIHD2QWAgIBDw8WAh8ABQQ2LjIwZGQCCA9kFgQCAQ8PFgIfAAUQMy4wNTEyODIwNTEyODIwNWRkAgMPDxYCHwAFCEIgKDMuMDUpZGQCCQ9kFgQCAQ8PFgIfAAUFMi42MDRkZAIDDw8WAh8ABQlDKyAoMi42MClkZAKUDw9kFhRmDw8WAh8ABSNCZXJuaW9sbGVzLCBTYW5kcmluZSAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNjBkZAIDDw8WAh8ABQY2NjIzNzBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NjIzNzAfAAUtQ0hFTSA2QkwgLSBJbnRyIElub3JnYW5pYyBDaGVtIExhYm9yYXRvcnkgKEEpZGQCAg8PFgIfAAUERkEwOWRkAgMPDxYCHwAFAzI1M2RkAgQPZBYCAgEPDxYCHwAFAzEwMGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU1OS44JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4My43JWRkAgcPZBYCAgEPDxYCHwAFBDkuNjJkZAIID2QWBAIBDw8WAh8ABRAzLjI3MTczOTEzMDQzNDc4ZGQCAw8PFgIfAAUIQiAoMy4yNylkZAIJD2QWBAIBDw8WAh8ABQUyLjg2NWRkAgMPDxYCHwAFCUItICgyLjg3KWRkApUPD2QWFGYPDxYCHwAFI0Jlcm5pb2xsZXMsIFNhbmRyaW5lICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM2MGRkAgMPDxYCHwAFBjY2MjM4NWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY2MjM4NR8ABS1DSEVNIDZCTCAtIEludHIgSW5vcmdhbmljIENoZW0gTGFib3JhdG9yeSAoQilkZAICDw8WAh8ABQRGQTA5ZGQCAw8PFgIfAAUDMjUzZGQCBA9kFgICAQ8PFgIfAAUCNDZkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNTguMSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzcuMyVkZAIHD2QWAgIBDw8WAh8ABQQ4LjIwZGQCCA9kFgQCAQ8PFgIfAAUQMy4zODYzNjM2MzYzNjM2NGRkAgMPDxYCHwAFCUIrICgzLjM5KWRkAgkPZBYEAgEPDxYCHwAFBTIuODY1ZGQCAw8PFgIfAAUJQi0gKDIuODcpZGQClg8PZBYUZg8PFgIfAAUjSm9obnNvbiwgQ2hyaXN0aW5hIEEgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzYwZGQCAw8PFgIfAAUGNjYyMzk4ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjYyMzk4HwAFLUNIRU0gNkMgIC0gR2VuZXJhbCBDaGVtaXN0cnkgIElJSSAgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMDlkZAIDDw8WAh8ABQMyOTNkZAIED2QWAgIBDw8WAh8ABQMyMjBkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODUuNCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTguMSVkZAIHD2QWAgIBDw8WAh8ABQQ2LjE5ZGQCCA9kFgQCAQ8PFgIfAAUBM2RkAgMPDxYCHwAFCEIgKDMuMDApZGQCCQ9kFgQCAQ8PFgIfAAUFMi43NjdkZAIDDw8WAh8ABQlCLSAoMi43NylkZAKXDw9kFhRmDw8WAh8ABSNUcm9nbGVyLCBXaWxsaWFtIEMgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNjBkZAIDDw8WAh8ABQY2NjI0MDhkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NjI0MDgfAAUtQ0hFTSA2QyAgLSBHZW5lcmFsIENoZW1pc3RyeSAgSUlJICAgICAgICAgKEIpZGQCAg8PFgIfAAUERkEwOWRkAgMPDxYCHwAFAzE3M2RkAgQPZBYCAgEPDxYCHwAFAjYwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg0LjUlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTY3LjglZGQCBw9kFgICAQ8PFgIfAAUENS4xN2RkAggPZBYEAgEPDxYCHwAFEDMuMjcxMTg2NDQwNjc3OTdkZAIDDw8WAh8ABQhCICgzLjI3KWRkAgkPZBYEAgEPDxYCHwAFBTIuNjIzZGQCAw8PFgIfAAUJQysgKDIuNjIpZGQCmA8PZBYUZg8PFgIfAAUjQ3p3b3Jrb3dza2ksIEpvaG4gICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzYwZGQCAw8PFgIfAAUGNjY2Mzg1ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjY2Mzg1HwAFLENIRU0gODcgLSBGcmVzaG1hbiBTZW1pbmFyICAgICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUERkEwOWRkAgMPDxYCHwAFAjExZGQCBA9kFgICAQ8PFgIfAAUCMTFkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDEuMjNkZAIID2QWAgIBDw8WAh8AZWRkAgkPZBYCAgEPDxYCHwBlZGQCmQ8PZBYUZg8PFgIfAAUjRWxsaXMsIEFydGh1ciAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzYwZGQCAw8PFgIfAAUGNjY2OTE1ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjY2OTE1HwAFLENIRU0gODcgLSBGcmVzaG1hbiBTZW1pbmFyICAgICAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUERkEwOWRkAgMPDxYCHwAFAjE3ZGQCBA9kFgICAQ8PFgIfAAUCMTdkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDAuNTBkZAIID2QWBAIBDw8WAh8ABQE0ZGQCAw8PFgIfAAUIQSAoNC4wMClkZAIJD2QWAgIBDw8WAh8AZWRkApoPD2QWFGYPDxYCHwAFI0ZveCwgTWFyeWUgQW5uZSAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM2MGRkAgMPDxYCHwAFBzY2NjkxNUFkZAIFDw8WBB8FBS4uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NjY5MTVBHwAFLENIRU0gODcgLSBGcmVzaG1hbiBTZW1pbmFyICAgICAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUERkEwOWRkAgMPDxYCHwAFAjE3ZGQCBA9kFgICAQ8PFgIfAAUCMTdkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDAuNTBkZAIID2QWAgIBDw8WAh8AZWRkAgkPZBYCAgEPDxYCHwBlZGQCmw8PZBYUZg8PFgIfAAUjUG9tZXJveSwgUm9iZXJ0IFMuICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzUwZGQCAw8PFgIfAAUGNjU1ODAwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjU1ODAwHwAFL0NIRU0gMTAwQSAgLSBBbmFseXRpY2FsIENoZW0gTGFiICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1UwOWRkAgMPDxYCHwAFAjE4ZGQCBA9kFgICAQ8PFgIfAAUCMTFkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjMuNiVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTAuOSVkZAIHD2QWAgIBDw8WAh8ABQUxMi4zMmRkAggPZBYEAgEPDxYCHwAFAzMuNWRkAgMPDxYCHwAFCUIrICgzLjUwKWRkAgkPZBYCAgEPDxYCHwBlZGQCnA8PZBYUZg8PFgIfAAUjS25vd2xlcywgQWlsZWVuICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzUwZGQCAw8PFgIfAAUGNjU2NzY3ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjU2NzY3HwAFL0NIRU0gMTE0QSAgLSBCaW9jaGVtaWNhbCBTdHJ1Y3R1cmUmRnVuY3Rpb24gKEEpZGQCAg8PFgIfAAUEU1UwOWRkAgMPDxYCHwAFAjQ0ZGQCBA9kFgICAQ8PFgIfAAUCMTZkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTMuOCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjguOCVkZAIHD2QWAgIBDw8WAh8ABQQ5LjM4ZGQCCA9kFgQCAQ8PFgIfAAUEMy4yNWRkAgMPDxYCHwAFCEIgKDMuMjUpZGQCCQ9kFgICAQ8PFgIfAGVkZAKdDw9kFhRmDw8WAh8ABSNPY29ubm9yLCBKb3NlcGggTS4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNTBkZAIDDw8WAh8ABQY2NTU4MjVkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NTU4MjUfAAUvQ0hFTSAxNDBBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRTVTA5ZGQCAw8PFgIfAAUDMjI0ZGQCBA9kFgICAQ8PFgIfAAUCNTBkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODkuOCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTcuOSVkZAIHD2QWAgIBDw8WAh8ABQUxMi4yMWRkAggPZBYEAgEPDxYCHwAFBjMuMTg3NWRkAgMPDxYCHwAFCEIgKDMuMTkpZGQCCQ9kFgICAQ8PFgIfAGVkZAKeDw9kFhRmDw8WAh8ABSNPY29ubm9yLCBKb3NlcGggTS4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNTBkZAIDDw8WAh8ABQY2NTY3NjlkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NTY3NjkfAAUvQ0hFTSAxNDBCICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IElJICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRTVTA5ZGQCAw8PFgIfAAUDMzE5ZGQCBA9kFgICAQ8PFgIfAAUDMTEzZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc0LjElZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk2LjQlZGQCBw9kFgICAQ8PFgIfAAUFMTIuMDlkZAIID2QWBAIBDw8WAh8ABRAzLjA3MjcyNzI3MjcyNzI3ZGQCAw8PFgIfAAUIQiAoMy4wNylkZAIJD2QWAgIBDw8WAh8AZWRkAp8PD2QWFGYPDxYCHwAFI1Rlcm5hbnNreSwgUm9iZXJ0IEouICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM1MGRkAgMPDxYCHwAFBjY1Njc3MWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY1Njc3MR8ABS9DSEVNIDE0MEMgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSUlJICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNVMDlkZAIDDw8WAh8ABQI2OWRkAgQPZBYCAgEPDxYCHwAFAjM1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc0LjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkzLjklZGQCBw9kFgICAQ8PFgIfAAUFMTMuNzBkZAIID2QWBAIBDw8WAh8ABRAyLjg1Mjk0MTE3NjQ3MDU5ZGQCAw8PFgIfAAUJQi0gKDIuODUpZGQCCQ9kFgICAQ8PFgIfAGVkZAKgDw9kFhRmDw8WAh8ABSNXZWl6bWFuLCBIYWltICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNTBkZAIDDw8WAh8ABQY2NTU3OTlkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NTU3OTkfAAUvQ0hFTSAxNDNBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IExhYm9yYXRvcnkgICAoQSlkZAICDw8WAh8ABQRTVTA5ZGQCAw8PFgIfAAUCODVkZAIED2QWAgIBDw8WAh8ABQIzMGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4My4zJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5My4zJWRkAgcPZBYCAgEPDxYCHwAFBTExLjAzZGQCCA9kFgQCAQ8PFgIfAAUQMy4yNDEzNzkzMTAzNDQ4M2RkAgMPDxYCHwAFCEIgKDMuMjQpZGQCCQ9kFgICAQ8PFgIfAGVkZAKhDw9kFhRmDw8WAh8ABSNUZXJuYW5za3ksIFJvYmVydCBKLiAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzNTBkZAIDDw8WAh8ABQY2NTU4MDFkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NTU4MDEfAAUvQ0hFTSAxNDNCICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IExhYm9yYXRvcnkgICAoQSlkZAICDw8WAh8ABQRTVTA5ZGQCAw8PFgIfAAUCMjBkZAIED2QWAgIBDw8WAh8ABQIxM2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Mi4zJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Mi4zJWRkAgcPZBYCAgEPDxYCHwAFBDYuODFkZAIID2QWBAIBDw8WAh8ABRAzLjIzMDc2OTIzMDc2OTIzZGQCAw8PFgIfAAUIQiAoMy4yMylkZAIJD2QWAgIBDw8WAh8AZWRkAqIPD2QWFGYPDxYCHwAFI0JyeWRnZXMsIFN0YWNleSAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM1MGRkAgMPDxYCHwAFBjY1Njc3M2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY1Njc3Mx8ABS1DSEVNIDZBICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRTVTA5ZGQCAw8PFgIfAAUCMzZkZAIED2QWAgIBDw8WAh8ABQIxMmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUEOC4zM2RkAggPZBYEAgEPDxYCHwAFEDMuMDgzMzMzMzMzMzMzMzNkZAIDDw8WAh8ABQhCICgzLjA4KWRkAgkPZBYCAgEPDxYCHwBlZGQCow8PZBYUZg8PFgIfAAUjSG9lZ2VyLCBDYXJsICAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzUwZGQCAw8PFgIfAAUGNjU1ODMzZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjU1ODMzHwAFLUNIRU0gNkEgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSSAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNVMDlkZAIDDw8WAh8ABQI2N2RkAgQPZBYCAgEPDxYCHwAFAjIyZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgxLjglZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc3LjMlZGQCBw9kFgICAQ8PFgIfAAUEOS4zMmRkAggPZBYEAgEPDxYCHwAFEDIuOTU0NTQ1NDU0NTQ1NDVkZAIDDw8WAh8ABQlCLSAoMi45NSlkZAIJD2QWAgIBDw8WAh8AZWRkAqQPD2QWFGYPDxYCHwAFI0pvaG5zb24sIENocmlzdGluYSBBICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM1MGRkAgMPDxYCHwAFBjY1Njc3NWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY1Njc3NR8ABS1DSEVNIDZCICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IElJICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRTVTA5ZGQCAw8PFgIfAAUCNzJkZAIED2QWAgIBDw8WAh8ABQIyMGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3NS4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQUxMC4wMGRkAggPZBYEAgEPDxYCHwAFEDMuMjYzMTU3ODk0NzM2ODRkZAIDDw8WAh8ABQhCICgzLjI2KWRkAgkPZBYCAgEPDxYCHwBlZGQCpQ8PZBYUZg8PFgIfAAUjUG9tZXJveSwgUm9iZXJ0IFMuICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzUwZGQCAw8PFgIfAAUGNjU1ODM0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjU1ODM0HwAFLUNIRU0gNkIgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSUkgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNVMDlkZAIDDw8WAh8ABQI0M2RkAgQPZBYCAgEPDxYCHwAFAjIyZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkwLjklZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTcyLjclZGQCBw9kFgICAQ8PFgIfAAUEOC42OGRkAggPZBYEAgEPDxYCHwAFEDIuODYzNjM2MzYzNjM2MzZkZAIDDw8WAh8ABQlCLSAoMi44NilkZAIJD2QWAgIBDw8WAh8AZWRkAqYPD2QWFGYPDxYCHwAFI0Jlcm5pb2xsZXMsIFNhbmRyaW5lICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM1MGRkAgMPDxYCHwAFBjY1NTgzNWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY1NTgzNR8ABS1DSEVNIDZCTCAtIEludHIgSW5vcmdhbmljIENoZW0gTGFib3JhdG9yeSAoQSlkZAICDw8WAh8ABQRTVTA5ZGQCAw8PFgIfAAUDMTU4ZGQCBA9kFgICAQ8PFgIfAAUCNTlkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjcuOCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODkuNyVkZAIHD2QWAgIBDw8WAh8ABQUxMS45NmRkAggPZBYEAgEPDxYCHwAFEDMuMzI3NTg2MjA2ODk2NTVkZAIDDw8WAh8ABQlCKyAoMy4zMylkZAIJD2QWAgIBDw8WAh8AZWRkAqcPD2QWFGYPDxYCHwAFI0hvZWdlciwgQ2FybCAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM1MGRkAgMPDxYCHwAFBjY1NTg4NmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY1NTg4Nh8ABS1DSEVNIDZDICAtIEdlbmVyYWwgQ2hlbWlzdHJ5ICBJSUkgICAgICAgICAoQSlkZAICDw8WAh8ABQRTVTA5ZGQCAw8PFgIfAAUCNzFkZAIED2QWAgIBDw8WAh8ABQIyN2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4OC45JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Ni4yJWRkAgcPZBYCAgEPDxYCHwAFBDguNDNkZAIID2QWBAIBDw8WAh8ABRAzLjExNTM4NDYxNTM4NDYyZGQCAw8PFgIfAAUIQiAoMy4xMilkZAIJD2QWAgIBDw8WAh8AZWRkAqgPD2QWFGYPDxYCHwAFI0pvaG5zb24sIENocmlzdGluYSBBICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDM1MGRkAgMPDxYCHwAFBjY1Njc3N2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY1Njc3Nx8ABS1DSEVNIDZDICAtIEdlbmVyYWwgQ2hlbWlzdHJ5ICBJSUkgICAgICAgICAoQSlkZAICDw8WAh8ABQRTVTA5ZGQCAw8PFgIfAAUDMTE3ZGQCBA9kFgICAQ8PFgIfAAUCNDJkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTIuOSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTUuMiVkZAIHD2QWAgIBDw8WAh8ABQQ4LjExZGQCCA9kFgQCAQ8PFgIfAAUQMy4yNjE5MDQ3NjE5MDQ3NmRkAgMPDxYCHwAFCEIgKDMuMjYpZGQCCQ9kFgICAQ8PFgIfAGVkZAKpDw9kFhRmDw8WAh8ABSNGZW5nLCBEYSBGZWkgICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzMTBkZAIDDw8WAh8ABQY2NTMyMTVkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NTMyMTUfAAUvQ0hFTSAxMDBBICAtIEFuYWx5dGljYWwgQ2hlbSBMYWIgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRTUDA5ZGQCAw8PFgIfAAUCNThkZAIED2QWAgIBDw8WAh8ABQI1OGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU2OS4xJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3NS4wJWRkAgcPZBYCAgEPDxYCHwAFBDguODRkZAIID2QWBAIBDw8WAh8ABRAzLjMwMzU3MTQyODU3MTQzZGQCAw8PFgIfAAUJQisgKDMuMzApZGQCCQ9kFgQCAQ8PFgIfAAUEMi45M2RkAgMPDxYCHwAFCUItICgyLjkzKWRkAqoPD2QWFGYPDxYCHwAFI1BvbWVyb3ksIFJvYmVydCBTLiAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDMxMGRkAgMPDxYCHwAFBjY1MzIyMmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY1MzIyMh8ABS9DSEVNIDEwMEIgIC0gRnVuZGFtZW50bHMvSW5zdHJ1bWVudGwgQW5hbHlzIChBKWRkAgIPDxYCHwAFBFNQMDlkZAIDDw8WAh8ABQIyNmRkAgQPZBYCAgEPDxYCHwAFAjE5ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTY2LjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg0LjIlZGQCBw9kFgICAQ8PFgIfAAUEOC4wOGRkAggPZBYEAgEPDxYCHwAFEDMuMjEwNTI2MzE1Nzg5NDdkZAIDDw8WAh8ABQhCICgzLjIxKWRkAgkPZBYEAgEPDxYCHwAFBDIuNzVkZAIDDw8WAh8ABQlCLSAoMi43NSlkZAKrDw9kFhRmDw8WAh8ABSNQb21lcm95LCBSb2JlcnQgUy4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzMTBkZAIDDw8WAh8ABQY2NTMyMjNkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NTMyMjMfAAUvQ0hFTSAxMDBCTCAtIEluc3RydW1lbnRhbCBBbmFseXNpcyBMYWIgICAgICAoQSlkZAICDw8WAh8ABQRTUDA5ZGQCAw8PFgIfAAUCMjRkZAIED2QWAgIBDw8WAh8ABQIyM2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4MS44JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ny4wJWRkAgcPZBYCAgEPDxYCHwAFBDguNTBkZAIID2QWBAIBDw8WAh8ABRAzLjIxNzM5MTMwNDM0NzgzZGQCAw8PFgIfAAUIQiAoMy4yMilkZAIJD2QWBAIBDw8WAh8ABQUzLjUzOGRkAgMPDxYCHwAFCUIrICgzLjU0KWRkAqwPD2QWFGYPDxYCHwAFI1N0dWFydCwgQ2hyaXN0aW5hICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDMxMGRkAgMPDxYCHwAFBjY1MzIyNGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY1MzIyNB8ABS9DSEVNIDEwNUEgIC0gUGh5c2ljYWwgQ2hlbWlzdHJ5IExhYm9yYXRvcnkgIChBKWRkAgIPDxYCHwAFBFNQMDlkZAIDDw8WAh8ABQI1MmRkAgQPZBYCAgEPDxYCHwAFAjIzZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTcyLjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkwLjklZGQCBw9kFgICAQ8PFgIfAAUEOC4xNWRkAggPZBYEAgEPDxYCHwAFEDMuMjI3MjcyNzI3MjcyNzNkZAIDDw8WAh8ABQhCICgzLjIzKWRkAgkPZBYEAgEPDxYCHwAFBDMuMTVkZAIDDw8WAh8ABQhCICgzLjE1KWRkAq0PD2QWFGYPDxYCHwAFI0Nyb3dsZXksIFRob21hcyBFLiAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDMxMGRkAgMPDxYCHwAFBjY1MzIyOGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY1MzIyOB8ABS1DSEVNIDEwOSAtIE1vbGVjdWxhciBCaW9jaGVtaXN0cnkgTGFiICAgICAoQSlkZAICDw8WAh8ABQRTUDA5ZGQCAw8PFgIfAAUCMzRkZAIED2QWAgIBDw8WAh8ABQIyMWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4MC4wJWRkAgcPZBYCAgEPDxYCHwAFBDcuMTBkZAIID2QWBAIBDw8WAh8ABQMzLjNkZAIDDw8WAh8ABQlCKyAoMy4zMClkZAIJD2QWBAIBDw8WAh8ABQUzLjMxOWRkAgMPDxYCHwAFCUIrICgzLjMyKWRkAq4PD2QWFGYPDxYCHwAFEkdob3NoLCBHb3VyaXNhbmthcmRkAgEPZBYGAgEPDxYCHwAFBDQzMTBkZAIDDw8WAh8ABQc2NTMyMjhBZGQCBQ8PFgQfBQUuLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjUzMjI4QR8ABS1DSEVNIDEwOSAtIE1vbGVjdWxhciBCaW9jaGVtaXN0cnkgTGFiICAgICAoQSlkZAICDw8WAh8ABQRTUDA5ZGQCAw8PFgIfAAUCMzRkZAIED2QWAgIBDw8WAh8ABQIyMGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3NS4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQUzMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDguMDBkZAIID2QWBAIBDw8WAh8ABRAzLjMzMzMzMzMzMzMzMzMzZGQCAw8PFgIfAAUJQisgKDMuMzMpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4zMTlkZAIDDw8WAh8ABQlCKyAoMy4zMilkZAKvDw9kFhRmDw8WAh8ABSNDcm93bGV5LCBUaG9tYXMgRS4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzMTBkZAIDDw8WAh8ABQY2NTMyMzFkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NTMyMzEfAAUtQ0hFTSAxMDkgLSBNb2xlY3VsYXIgQmlvY2hlbWlzdHJ5IExhYiAgICAgKEIpZGQCAg8PFgIfAAUEU1AwOWRkAgMPDxYCHwAFAjMxZGQCBA9kFgICAQ8PFgIfAAUCMjJkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTAuOSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjguMiVkZAIHD2QWAgIBDw8WAh8ABQQ1LjMyZGQCCA9kFgQCAQ8PFgIfAAUQMy4zNTI5NDExNzY0NzA1OWRkAgMPDxYCHwAFCUIrICgzLjM1KWRkAgkPZBYEAgEPDxYCHwAFBTMuMzE5ZGQCAw8PFgIfAAUJQisgKDMuMzIpZGQCsA8PZBYUZg8PFgIfAAUjR2hvc2gsIEdvdXJpc2Fua2FyICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzEwZGQCAw8PFgIfAAUGNjUzMjMxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjUzMjMxHwAFLUNIRU0gMTA5IC0gTW9sZWN1bGFyIEJpb2NoZW1pc3RyeSBMYWIgICAgIChCKWRkAgIPDxYCHwAFBFNQMDlkZAIDDw8WAh8ABQIzMWRkAgQPZBYCAgEPDxYCHwAFAjE3ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk0LjElZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgyLjQlZGQCBw9kFgICAQ8PFgIfAAUENS4yMWRkAggPZBYEAgEPDxYCHwAFEDMuMzUyOTQxMTc2NDcwNTlkZAIDDw8WAh8ABQlCKyAoMy4zNSlkZAIJD2QWBAIBDw8WAh8ABQUzLjMxOWRkAgMPDxYCHwAFCUIrICgzLjMyKWRkArEPD2QWFGYPDxYCHwAFI0Nyb3dsZXksIFRob21hcyBFLiAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDMxMGRkAgMPDxYCHwAFBjY1MzIyOGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY1MzIyOB8ABS9DSEVNIDExMkIgIC0gTW9sZWN1bGFyIEJpb2NoZW1pc3RyeSBMYWIgICAgIChBKWRkAgIPDxYCHwAFBFNQMDlkZAIDDw8WAh8ABQIzNGRkAgQPZBYCAgEPDxYCHwAFAjIxZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgwLjAlZGQCBw9kFgICAQ8PFgIfAAUENy4xMGRkAggPZBYEAgEPDxYCHwAFAzMuM2RkAgMPDxYCHwAFCUIrICgzLjMwKWRkAgkPZBYEAgEPDxYCHwAFBTMuMzk0ZGQCAw8PFgIfAAUJQisgKDMuMzkpZGQCsg8PZBYUZg8PFgIfAAUSR2hvc2gsIEdvdXJpc2Fua2FyZGQCAQ9kFgYCAQ8PFgIfAAUENDMxMGRkAgMPDxYCHwAFBjY1MzIyOGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY1MzIyOB8ABS9DSEVNIDExMkIgIC0gTW9sZWN1bGFyIEJpb2NoZW1pc3RyeSBMYWIgICAgIChBKWRkAgIPDxYCHwAFBFNQMDlkZAIDDw8WAh8ABQIzNGRkAgQPZBYCAgEPDxYCHwAFAjIwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc1LjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTMwLjAlZGQCBw9kFgICAQ8PFgIfAAUEOC4wMGRkAggPZBYEAgEPDxYCHwAFAzMuM2RkAgMPDxYCHwAFCUIrICgzLjMwKWRkAgkPZBYEAgEPDxYCHwAFBTMuMzE5ZGQCAw8PFgIfAAUJQisgKDMuMzIpZGQCsw8PZBYUZg8PFgIfAAUjQ3Jvd2xleSwgVGhvbWFzIEUuICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzEwZGQCAw8PFgIfAAUGNjUzMjMxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjUzMjMxHwAFL0NIRU0gMTEyQiAgLSBNb2xlY3VsYXIgQmlvY2hlbWlzdHJ5IExhYiAgICAgKEIpZGQCAg8PFgIfAAUEU1AwOWRkAgMPDxYCHwAFAjMxZGQCBA9kFgICAQ8PFgIfAAUCMjJkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTAuOSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjguMiVkZAIHD2QWAgIBDw8WAh8ABQQ1LjMyZGQCCA9kFgQCAQ8PFgIfAAUQMy4zNTI5NDExNzY0NzA1OWRkAgMPDxYCHwAFCUIrICgzLjM1KWRkAgkPZBYEAgEPDxYCHwAFBTMuMzk0ZGQCAw8PFgIfAAUJQisgKDMuMzkpZGQCtA8PZBYUZg8PFgIfAAUjR2hvc2gsIEdvdXJpc2Fua2FyICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzEwZGQCAw8PFgIfAAUGNjUzMjMxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjUzMjMxHwAFL0NIRU0gMTEyQiAgLSBNb2xlY3VsYXIgQmlvY2hlbWlzdHJ5IExhYiAgICAgKEIpZGQCAg8PFgIfAAUEU1AwOWRkAgMPDxYCHwAFAjMxZGQCBA9kFgICAQ8PFgIfAAUCMTdkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTQuMSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODIuNCVkZAIHD2QWAgIBDw8WAh8ABQQ1LjIxZGQCCA9kFgQCAQ8PFgIfAAUQMy4zNTI5NDExNzY0NzA1OWRkAgMPDxYCHwAFCUIrICgzLjM1KWRkAgkPZBYEAgEPDxYCHwAFBTMuMzE5ZGQCAw8PFgIfAAUJQisgKDMuMzIpZGQCtQ8PZBYUZg8PFgIfAAUjSG9mZm1hbm4sIEFsZXhhbmRlciAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzEwZGQCAw8PFgIfAAUGNjUzMjM1ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjUzMjM1HwAFL0NIRU0gMTE0QyAgLSBCaW9zeW50aGVzaXMgb2YgTWFjcm9tb2xlY3VsZXMgKEEpZGQCAg8PFgIfAAUEU1AwOWRkAgMPDxYCHwAFAzIwMWRkAgQPZBYCAgEPDxYCHwAFAjg4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkyLjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk4LjglZGQCBw9kFgICAQ8PFgIfAAUENS42OWRkAggPZBYEAgEPDxYCHwAFBjMuMzg3NWRkAgMPDxYCHwAFCUIrICgzLjM5KWRkAgkPZBYEAgEPDxYCHwAFBTIuNjE5ZGQCAw8PFgIfAAUJQysgKDIuNjIpZGQCtg8PZBYUZg8PFgIfAAUjUHJpbnR6LCBNb3J0b24gUC4gICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzEwZGQCAw8PFgIfAAUGNjUzMjQ1ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjUzMjQ1HwAFLUNIRU0gMTE4IC0gUGhhcm1hY29sb2d5IGFuZCBUb3hpY29sb2d5ICAgIChBKWRkAgIPDxYCHwAFBFNQMDlkZAIDDw8WAh8ABQMxNDJkZAIED2QWAgIBDw8WAh8ABQI2N2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5OC41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5OC41JWRkAgcPZBYCAgEPDxYCHwAFBDQuOThkZAIID2QWBAIBDw8WAh8ABQMzLjZkZAIDDw8WAh8ABQlCKyAoMy42MClkZAIJD2QWBAIBDw8WAh8ABQUzLjUyOGRkAgMPDxYCHwAFCUIrICgzLjUzKWRkArcPD2QWFGYPDxYCHwAFI1RlemNhbiwgRmFpayAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDMxMGRkAgMPDxYCHwAFBjY1MzI1M2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY1MzI1Mx8ABS1DSEVNIDEyNCAtIEJpb2lub3JnYW5pYyBDaGVtaXN0cnkgICAgICAgICAoQSlkZAICDw8WAh8ABQRTUDA5ZGQCAw8PFgIfAAUCMjdkZAIED2QWAgIBDw8WAh8ABQIyOGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NS43JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NS43JWRkAgcPZBYCAgEPDxYCHwAFBDUuODZkZAIID2QWBAIBDw8WAh8ABRAzLjE1Mzg0NjE1Mzg0NjE1ZGQCAw8PFgIfAAUIQiAoMy4xNSlkZAIJD2QWBAIBDw8WAh8ABQUyLjQzN2RkAgMPDxYCHwAFCUMrICgyLjQ0KWRkArgPD2QWFGYPDxYCHwAFI1RlemNhbiwgRmFpayAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDMxMGRkAgMPDxYCHwAFBjY1MzI1M2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY1MzI1Mx8ABS1DSEVNIDEyNSAtIEJpb2lub3JnYW5pYyBDaGVtaXN0cnkgICAgICAgICAoQSlkZAICDw8WAh8ABQRTUDA5ZGQCAw8PFgIfAAUCMjdkZAIED2QWAgIBDw8WAh8ABQIyOGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NS43JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NS43JWRkAgcPZBYCAgEPDxYCHwAFBDUuODZkZAIID2QWBAIBDw8WAh8ABRAzLjE1Mzg0NjE1Mzg0NjE1ZGQCAw8PFgIfAAUIQiAoMy4xNSlkZAIJD2QWBAIBDw8WAh8ABQUyLjQzN2RkAgMPDxYCHwAFCUMrICgyLjQ0KWRkArkPD2QWFGYPDxYCHwAFI0Nyb3dsZXksIFRob21hcyBFLiAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDMxMGRkAgMPDxYCHwAFBjY1MzIwNGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY1MzIwNB8ABSxDSEVNIDEzIC0gQ2hlbWlzdHJ5IG9mIExpZmUgICAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNQMDlkZAIDDw8WAh8ABQMxMzhkZAIED2QWAgIBDw8WAh8ABQMxMDBkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFMjkuOCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFMjcuMiVkZAIHD2QWAgIBDw8WAh8ABQQyLjUwZGQCCA9kFgQCAQ8PFgIfAAUQMy4xNDAzNTA4NzcxOTI5OGRkAgMPDxYCHwAFCEIgKDMuMTQpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4zMDNkZAIDDw8WAh8ABQlCKyAoMy4zMClkZAK6Dw9kFhRmDw8WAh8ABSNTaW5oYSwgQW1pdGFiaGEgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzMTBkZAIDDw8WAh8ABQY2NTMyNTRkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NTMyNTQfAAUtQ0hFTSAxMzMgLSBQaHlzaWNhbCBDaGVtaXN0cnkgICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1AwOWRkAgMPDxYCHwAFAjc0ZGQCBA9kFgICAQ8PFgIfAAUCMzhkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNTEuNCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODMuMyVkZAIHD2QWAgIBDw8WAh8ABQQ4LjM5ZGQCCA9kFgQCAQ8PFgIfAAUQMi45MDkwOTA5MDkwOTA5MWRkAgMPDxYCHwAFCUItICgyLjkxKWRkAgkPZBYEAgEPDxYCHwAFBTIuNTY5ZGQCAw8PFgIfAAUJQysgKDIuNTcpZGQCuw8PZBYUZg8PFgIfAAUjT2Nvbm5vciwgSm9zZXBoIE0uICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzEwZGQCAw8PFgIfAAUGNjUzMjU5ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjUzMjU5HwAFL0NIRU0gMTQwQSAgLSBPcmdhbmljIENoZW1pc3RyeSBJICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1AwOWRkAgMPDxYCHwAFAzMzN2RkAgQPZBYCAgEPDxYCHwAFAjI2ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk2LjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkyLjMlZGQCBw9kFgICAQ8PFgIfAAUENi44MWRkAggPZBYEAgEPDxYCHwAFEDMuNDc4MjYwODY5NTY1MjJkZAIDDw8WAh8ABQlCKyAoMy40OClkZAIJD2QWBAIBDw8WAh8ABQUyLjQwNWRkAgMPDxYCHwAFCUMrICgyLjQxKWRkArwPD2QWFGYPDxYCHwAFI0dsYXplciwgRWRpdGggQyAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDMxMGRkAgMPDxYCHwAFBjY1MzI3MGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY1MzI3MB8ABS9DSEVNIDE0MEIgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSUkgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNQMDlkZAIDDw8WAh8ABQMxOTRkZAIED2QWAgIBDw8WAh8ABQMxMjVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjQuOCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjMuOSVkZAIHD2QWAgIBDw8WAh8ABQQ5LjQ3ZGQCCA9kFgQCAQ8PFgIfAAUQMi43Nzk2NjEwMTY5NDkxNWRkAgMPDxYCHwAFCUItICgyLjc4KWRkAgkPZBYEAgEPDxYCHwAFBTIuNTE5ZGQCAw8PFgIfAAUJQysgKDIuNTIpZGQCvQ8PZBYUZg8PFgIfAAUjTW9saW5za2ksIFRhZGV1c3ogICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzEwZGQCAw8PFgIfAAUGNjUzMjgxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjUzMjgxHwAFL0NIRU0gMTQwQiAgLSBPcmdhbmljIENoZW1pc3RyeSBJSSAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUEU1AwOWRkAgMPDxYCHwAFAzMxOGRkAgQPZBYCAgEPDxYCHwAFAzE1MmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU2OS4zJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU0Ni43JWRkAgcPZBYCAgEPDxYCHwAFBDcuNDNkZAIID2QWBAIBDw8WAh8ABRAzLjA4NDUwNzA0MjI1MzUyZGQCAw8PFgIfAAUIQiAoMy4wOClkZAIJD2QWBAIBDw8WAh8ABQUyLjMxNmRkAgMPDxYCHwAFCUMrICgyLjMyKWRkAr4PD2QWFGYPDxYCHwAFI0FsYml6YXRpLCBLaW0gRi4gICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDMxMGRkAgMPDxYCHwAFBjY1MzI5MmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY1MzI5Mh8ABS9DSEVNIDE0MEMgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSUlJICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNQMDlkZAIDDw8WAh8ABQMzNTNkZAIED2QWAgIBDw8WAh8ABQMyMzVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODUuNCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTkuMSVkZAIHD2QWAgIBDw8WAh8ABQQ2LjI2ZGQCCA9kFgQCAQ8PFgIfAAUQMy4zNTI5NDExNzY0NzA1OWRkAgMPDxYCHwAFCUIrICgzLjM1KWRkAgkPZBYEAgEPDxYCHwAFBTIuNzcxZGQCAw8PFgIfAAUJQi0gKDIuNzcpZGQCvw8PZBYUZg8PFgIfAAUjVGVybmFuc2t5LCBSb2JlcnQgSi4gICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzEwZGQCAw8PFgIfAAUGNjUzMzAzZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjUzMzAzHwAFL0NIRU0gMTQwQyAgLSBPcmdhbmljIENoZW1pc3RyeSBJSUkgICAgICAgICAgKEIpZGQCAg8PFgIfAAUEU1AwOWRkAgMPDxYCHwAFAzEwM2RkAgQPZBYCAgEPDxYCHwAFAjk2ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc4LjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk0LjYlZGQCBw9kFgICAQ8PFgIfAAUEOS4wNmRkAggPZBYEAgEPDxYCHwAFEDMuMTIwODc5MTIwODc5MTJkZAIDDw8WAh8ABQhCICgzLjEyKWRkAgkPZBYEAgEPDxYCHwAFBTIuNzAzZGQCAw8PFgIfAAUJQi0gKDIuNzApZGQCwA8PZBYUZg8PFgIfAAUjVG9yLCBZaXR6aGFrICAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzEwZGQCAw8PFgIfAAUGNjU0Njc2ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjU0Njc2HwAFL0NIRU0gMTQwQ0ggLSBIb25vcnMgT3JnYW5pYyBDaGVtaXN0cnkgICAgICAgKEEpZGQCAg8PFgIfAAUEU1AwOWRkAgMPDxYCHwAFAjUyZGQCBA9kFgICAQ8PFgIfAAUCMzdkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDYuMDFkZAIID2QWBAIBDw8WAh8ABRAzLjc4Nzg3ODc4Nzg3ODc5ZGQCAw8PFgIfAAUJQS0gKDMuNzkpZGQCCQ9kFgQCAQ8PFgIfAAUFMy42NTdkZAIDDw8WAh8ABQlCKyAoMy42NilkZALBDw9kFhRmDw8WAh8ABSNXZWl6bWFuLCBIYWltICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzMTBkZAIDDw8WAh8ABQY2NTMzMTZkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NTMzMTYfAAUvQ0hFTSAxNDNBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IExhYm9yYXRvcnkgICAoQSlkZAICDw8WAh8ABQRTUDA5ZGQCAw8PFgIfAAUDMzkwZGQCBA9kFgICAQ8PFgIfAAUDMTYwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg2LjElZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkyLjclZGQCBw9kFgICAQ8PFgIfAAUENi41M2RkAggPZBYEAgEPDxYCHwAFEDMuMzU5MTU0OTI5NTc3NDdkZAIDDw8WAh8ABQlCKyAoMy4zNilkZAIJD2QWBAIBDw8WAh8ABQUzLjAxMmRkAgMPDxYCHwAFCEIgKDMuMDEpZGQCwg8PZBYUZg8PFgIfAAUjVGVybmFuc2t5LCBSb2JlcnQgSi4gICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzEwZGQCAw8PFgIfAAUGNjUzMzM5ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjUzMzM5HwAFL0NIRU0gMTQzQiAgLSBPcmdhbmljIENoZW1pc3RyeSBMYWJvcmF0b3J5ICAgKEEpZGQCAg8PFgIfAAUEU1AwOWRkAgMPDxYCHwAFAjk3ZGQCBA9kFgICAQ8PFgIfAAUCOTRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTMuNCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTMuNSVkZAIHD2QWAgIBDw8WAh8ABQQ2LjM3ZGQCCA9kFgQCAQ8PFgIfAAUQMy4xMzYzNjM2MzYzNjM2NGRkAgMPDxYCHwAFCEIgKDMuMTQpZGQCCQ9kFgQCAQ8PFgIfAAUEMy4yM2RkAgMPDxYCHwAFCEIgKDMuMjMpZGQCww8PZBYUZg8PFgIfAAUjWWFuZywgSmVycnkgICAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzEwZGQCAw8PFgIfAAUGNjUzMzQ3ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjUzMzQ3HwAFLUNIRU0gMTU2IC0gU3RydWN0JlByb3BlcnRpZXMvT3JnYW5jIE1vbGVjIChBKWRkAgIPDxYCHwAFBFNQMDlkZAIDDw8WAh8ABQIzOWRkAgQPZBYCAgEPDxYCHwAFAjI4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkyLjYlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg5LjMlZGQCBw9kFgICAQ8PFgIfAAUENS43MWRkAggPZBYEAgEPDxYCHwAFEDMuMjY5MjMwNzY5MjMwNzdkZAIDDw8WAh8ABQhCICgzLjI3KWRkAgkPZBYEAgEPDxYCHwAFBTMuMzYyZGQCAw8PFgIfAAUJQisgKDMuMzYpZGQCxA8PZBYUZg8PFgIfAAUjQnVya2FydCwgTWljaGFlbCBEICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzEwZGQCAw8PFgIfAAUGNjUzMzQ4ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjUzMzQ4HwAFLUNIRU0gMTU3IC0gTmF0dXJhbCBQcm9kdWN0cyBDaGVtaXN0cnkgICAgIChBKWRkAgIPDxYCHwAFBFNQMDlkZAIDDw8WAh8ABQI0NmRkAgQPZBYCAgEPDxYCHwAFAjU4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg4LjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkyLjMlZGQCBw9kFgICAQ8PFgIfAAUENS4wN2RkAggPZBYEAgEPDxYCHwAFEDMuMzUwODc3MTkyOTgyNDZkZAIDDw8WAh8ABQlCKyAoMy4zNSlkZAIJD2QWBAIBDw8WAh8ABQUzLjA1MWRkAgMPDxYCHwAFCEIgKDMuMDUpZGQCxQ8PZBYUZg8PFgIfAAUjUHJhdGhlciwgS2ltYmVybHkgQSAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzEwZGQCAw8PFgIfAAUGNjUzMzQ5ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjUzMzQ5HwAFLUNIRU0gMTczIC0gQXRtb3NwaGVyaWMgQ2hlbWlzdHJ5ICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNQMDlkZAIDDw8WAh8ABQI0OGRkAgQPZBYCAgEPDxYCHwAFAjQwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg1LjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk3LjUlZGQCBw9kFgICAQ8PFgIfAAUENC41NWRkAggPZBYEAgEPDxYCHwAFEDMuMTk0NDQ0NDQ0NDQ0NDRkZAIDDw8WAh8ABQhCICgzLjE5KWRkAgkPZBYEAgEPDxYCHwAFBTIuMzc3ZGQCAw8PFgIfAAUJQysgKDIuMzgpZGQCxg8PZBYUZg8PFgIfAAUjRGlja3NvbiwgQW5kcmV3IEdpbG1vcmUgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzEwZGQCAw8PFgIfAAUGNjUzMzUzZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjUzMzUzHwAFLUNIRU0gMTc0IC0gQ2hlbSBQcmluIG9mIE1hcmluZSBTeXN0ZW1zICAgIChBKWRkAgIPDxYCHwAFBFNQMDlkZAIDDw8WAh8ABQIzOGRkAgQPZBYCAgEPDxYCHwAFAjI1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTcyLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg0LjAlZGQCBw9kFgICAQ8PFgIfAAUEMy43NWRkAggPZBYEAgEPDxYCHwAFAzMuMWRkAgMPDxYCHwAFCEIgKDMuMTApZGQCCQ9kFgQCAQ8PFgIfAAUFMi44NjhkZAIDDw8WAh8ABQlCLSAoMi44NylkZALHDw9kFhRmDw8WAh8ABSNDendvcmtvd3NraSwgSm9obiAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzMTBkZAIDDw8WAh8ABQY2NTMzNTRkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NTMzNTQfAAUtQ0hFTSAxODggLSBDYXBzdG9uZSBTZW0gaW4gU2NpZW5jZSBFZHVjdG4gKEEpZGQCAg8PFgIfAAUEU1AwOWRkAgMPDxYCHwAFAjEyZGQCBA9kFgICAQ8PFgIfAAUCMTJkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTEuNyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUENC4zM2RkAggPZBYEAgEPDxYCHwAFEDMuNDU0NTQ1NDU0NTQ1NDVkZAIDDw8WAh8ABQlCKyAoMy40NSlkZAIJD2QWAgIBDw8WAh8AZWRkAsgPD2QWFGYPDxYCHwAFI1RlemNhbiwgRmFpayAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDMxMGRkAgMPDxYCHwAFBjY1MzA5MmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY1MzA5Mh8ABS1DSEVNIDZBICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRTUDA5ZGQCAw8PFgIfAAUDMjUxZGQCBA9kFgICAQ8PFgIfAAUDMTQyZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg1LjElZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkwLjglZGQCBw9kFgICAQ8PFgIfAAUENS4zN2RkAggPZBYEAgEPDxYCHwAFEDMuMTYwNTgzOTQxNjA1ODRkZAIDDw8WAh8ABQhCICgzLjE2KWRkAgkPZBYEAgEPDxYCHwAFBTIuMTg2ZGQCAw8PFgIfAAUIQyAoMi4xOSlkZALJDw9kFhRmDw8WAh8ABSNIb2VnZXIsIENhcmwgICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzMTBkZAIDDw8WAh8ABQY2NTMxMDJkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NTMxMDIfAAUtQ0hFTSA2QiAgLSBHZW5lcmFsIENoZW1pc3RyeSBJSSAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1AwOWRkAgMPDxYCHwAFAzE2N2RkAgQPZBYCAgEPDxYCHwAFAjk0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkyLjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk4LjklZGQCBw9kFgICAQ8PFgIfAAUENi41OWRkAggPZBYEAgEPDxYCHwAFEDIuODUyMjcyNzI3MjcyNzNkZAIDDw8WAh8ABQlCLSAoMi44NSlkZAIJD2QWBAIBDw8WAh8ABQUyLjYzNmRkAgMPDxYCHwAFCUMrICgyLjY0KWRkAsoPD2QWFGYPDxYCHwAFI0pvaG5zb24sIENocmlzdGluYSBBICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDMxMGRkAgMPDxYCHwAFBjY1MzExMmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY1MzExMh8ABS1DSEVNIDZCICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IElJICAgICAgICAgICAoQilkZAICDw8WAh8ABQRTUDA5ZGQCAw8PFgIfAAUDMzE5ZGQCBA9kFgICAQ8PFgIfAAUDMTk4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgyLjYlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk5LjAlZGQCBw9kFgICAQ8PFgIfAAUENi4zM2RkAggPZBYEAgEPDxYCHwAFEDMuMTM3NTY2MTM3NTY2MTRkZAIDDw8WAh8ABQhCICgzLjE0KWRkAgkPZBYEAgEPDxYCHwAFBTIuNTc0ZGQCAw8PFgIfAAUJQysgKDIuNTcpZGQCyw8PZBYUZg8PFgIfAAUjV2VpbmJlcmdlciwgTGVvciAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzEwZGQCAw8PFgIfAAUGNjUzMTIyZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjUzMTIyHwAFLUNIRU0gNkIgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSUkgICAgICAgICAgIChDKWRkAgIPDxYCHwAFBFNQMDlkZAIDDw8WAh8ABQMxODRkZAIED2QWAgIBDw8WAh8ABQI3OGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MC40JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ni43JWRkAgcPZBYCAgEPDxYCHwAFBDUuMjdkZAIID2QWBAIBDw8WAh8ABRAzLjQ5MzE1MDY4NDkzMTUxZGQCAw8PFgIfAAUJQisgKDMuNDkpZGQCCQ9kFgQCAQ8PFgIfAAUFMi43ODdkZAIDDw8WAh8ABQlCLSAoMi43OSlkZALMDw9kFhRmDw8WAh8ABSNCZXJuaW9sbGVzLCBTYW5kcmluZSAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzMTBkZAIDDw8WAh8ABQY2NTMxMzJkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NTMxMzIfAAUtQ0hFTSA2QkwgLSBJbnRyIElub3JnYW5pYyBDaGVtIExhYm9yYXRvcnkgKEEpZGQCAg8PFgIfAAUEU1AwOWRkAgMPDxYCHwAFAzIzNmRkAgQPZBYCAgEPDxYCHwAFAjE3ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTUyLjklZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg4LjIlZGQCBw9kFgICAQ8PFgIfAAUFMTAuMzhkZAIID2QWBAIBDw8WAh8ABRAzLjM1Mjk0MTE3NjQ3MDU5ZGQCAw8PFgIfAAUJQisgKDMuMzUpZGQCCQ9kFgQCAQ8PFgIfAAUFMi45NDFkZAIDDw8WAh8ABQlCLSAoMi45NClkZALNDw9kFhRmDw8WAh8ABSNCZXJuaW9sbGVzLCBTYW5kcmluZSAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzMTBkZAIDDw8WAh8ABQY2NTMxNDdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NTMxNDcfAAUtQ0hFTSA2QkwgLSBJbnRyIElub3JnYW5pYyBDaGVtIExhYm9yYXRvcnkgKEIpZGQCAg8PFgIfAAUEU1AwOWRkAgMPDxYCHwAFAzI0MmRkAgQPZBYCAgEPDxYCHwAFAjU2ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTUxLjklZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk0LjMlZGQCBw9kFgICAQ8PFgIfAAUEOS4yNWRkAggPZBYEAgEPDxYCHwAFEDMuMzQ1NDU0NTQ1NDU0NTVkZAIDDw8WAh8ABQlCKyAoMy4zNSlkZAIJD2QWBAIBDw8WAh8ABQUyLjk0MWRkAgMPDxYCHwAFCUItICgyLjk0KWRkAs4PD2QWFGYPDxYCHwAFI0t1YmlhaywgQ2xpZmZvcmQgUGF1bCAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDMxMGRkAgMPDxYCHwAFBjY1MzE2MGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY1MzE2MB8ABS1DSEVNIDZDICAtIEdlbmVyYWwgQ2hlbWlzdHJ5ICBJSUkgICAgICAgICAoQSlkZAICDw8WAh8ABQRTUDA5ZGQCAw8PFgIfAAUDMTk2ZGQCBA9kFgICAQ8PFgIfAAUDMTM0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk0LjYlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk2LjIlZGQCBw9kFgICAQ8PFgIfAAUENC45NmRkAggPZBYEAgEPDxYCHwAFEDMuMjQ2MjY4NjU2NzE2NDJkZAIDDw8WAh8ABQhCICgzLjI1KWRkAgkPZBYEAgEPDxYCHwAFBTIuODY4ZGQCAw8PFgIfAAUJQi0gKDIuODcpZGQCzw8PZBYUZg8PFgIfAAUjQnJ5ZGdlcywgU3RhY2V5ICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzEwZGQCAw8PFgIfAAUGNjUzMTcwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjUzMTcwHwAFLUNIRU0gNkMgIC0gR2VuZXJhbCBDaGVtaXN0cnkgIElJSSAgICAgICAgIChCKWRkAgIPDxYCHwAFBFNQMDlkZAIDDw8WAh8ABQMxNDVkZAIED2QWAgIBDw8WAh8ABQI5NmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MS41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NS4xJWRkAgcPZBYCAgEPDxYCHwAFBDYuMzFkZAIID2QWBAIBDw8WAh8ABRAzLjM1ODY5NTY1MjE3MzkxZGQCAw8PFgIfAAUJQisgKDMuMzYpZGQCCQ9kFgQCAQ8PFgIfAAUFMi44NTdkZAIDDw8WAh8ABQlCLSAoMi44NilkZALQDw9kFhRmDw8WAh8ABSNHaG9zaCwgUGFydGhvICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzMTBkZAIDDw8WAh8ABQY2NTMxODBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NTMxODAfAAUtQ0hFTSA2QyAgLSBHZW5lcmFsIENoZW1pc3RyeSAgSUlJICAgICAgICAgKEMpZGQCAg8PFgIfAAUEU1AwOWRkAgMPDxYCHwAFAzI5MWRkAgQPZBYCAgEPDxYCHwAFAzEwMGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4My44JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3Ni44JWRkAgcPZBYCAgEPDxYCHwAFBDUuMTZkZAIID2QWBAIBDw8WAh8ABQczLjA5Mzc1ZGQCAw8PFgIfAAUIQiAoMy4wOSlkZAIJD2QWBAIBDw8WAh8ABQUyLjQ4NWRkAgMPDxYCHwAFCUMrICgyLjQ5KWRkAtEPD2QWFGYPDxYCHwAFI0pvaG5zb24sIENocmlzdGluYSBBICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDMxMGRkAgMPDxYCHwAFBjY1MzE5MGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY1MzE5MB8ABS1DSEVNIDZDICAtIEdlbmVyYWwgQ2hlbWlzdHJ5ICBJSUkgICAgICAgICAoRClkZAICDw8WAh8ABQRTUDA5ZGQCAw8PFgIfAAUDMzQ2ZGQCBA9kFgICAQ8PFgIfAAUDMjQ1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg2LjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk4LjglZGQCBw9kFgICAQ8PFgIfAAUENi40N2RkAggPZBYEAgEPDxYCHwAFEDMuMzcwMjEyNzY1OTU3NDVkZAIDDw8WAh8ABQlCKyAoMy4zNylkZAIJD2QWBAIBDw8WAh8ABQQyLjg1ZGQCAw8PFgIfAAUJQi0gKDIuODUpZGQC0g8PZBYUZg8PFgIfAAUjSG9lZ2VyLCBDYXJsICAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzEwZGQCAw8PFgIfAAUGNjUzMjAwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjUzMjAwHwAFLUNIRU0gNkNIIC0gSG9ub3JzIEdlbmVyYWwgQ2hlbWlzdHJ5IElJSSAgIChBKWRkAgIPDxYCHwAFBFNQMDlkZAIDDw8WAh8ABQI2NGRkAgQPZBYCAgEPDxYCHwAFAjU1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk0LjUlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDQuNjFkZAIID2QWBAIBDw8WAh8ABRAzLjY2MDM3NzM1ODQ5MDU3ZGQCAw8PFgIfAAUJQisgKDMuNjYpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4zNjlkZAIDDw8WAh8ABQlCKyAoMy4zNylkZALTDw9kFhRmDw8WAh8ABSNXZWl6bWFuLCBIYWltICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzMTBkZAIDDw8WAh8ABQY2NTQ0NDNkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NTQ0NDMfAAUsQ0hFTSA4NyAtIEZyZXNobWFuIFNlbWluYXIgICAgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRTUDA5ZGQCAw8PFgIfAAUCMTRkZAIED2QWAgIBDw8WAh8ABQIxNGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NS43JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NS43JWRkAgcPZBYCAgEPDxYCHwAFBDAuNjRkZAIID2QWBAIBDw8WAh8ABQE0ZGQCAw8PFgIfAAUIQSAoNC4wMClkZAIJD2QWAgIBDw8WAh8AZWRkAtQPD2QWFGYPDxYCHwAFI0JyeWRnZXMsIFN0YWNleSAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDMxMGRkAgMPDxYCHwAFBjY1NDUxMmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY1NDUxMh8ABSxDSEVNIDg3IC0gRnJlc2htYW4gU2VtaW5hciAgICAgICAgICAgICAgIChCKWRkAgIPDxYCHwAFBFNQMDlkZAIDDw8WAh8ABQIxOGRkAgQPZBYCAgEPDxYCHwAFAjE4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQwLjUwZGQCCA9kFgICAQ8PFgIfAGVkZAIJD2QWAgIBDw8WAh8AZWRkAtUPD2QWFGYPDxYCHwAFI1ByaW50eiwgTW9ydG9uIFAuICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDMxMGRkAgMPDxYCHwAFBjY1MzIxMmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY1MzIxMh8ABSxDSEVNIDkyIC0gVW5kZXJncmFkIFBoYXJtYWNvbG9neSBTZW1pbmFyIChBKWRkAgIPDxYCHwAFBFNQMDlkZAIDDw8WAh8ABQMxNjZkZAIED2QWAgIBDw8WAh8ABQI4OWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTcuNiVkZAIHD2QWAgIBDw8WAh8ABQQwLjg0ZGQCCA9kFgQCAQ8PFgIfAAUQMy45MTY2NjY2NjY2NjY2N2RkAgMPDxYCHwAFCUEtICgzLjkyKWRkAgkPZBYCAgEPDxYCHwBlZGQC1g8PZBYUZg8PFgIfAAUjQ3p3b3Jrb3dza2ksIEpvaG4gICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzEwZGQCAw8PFgIfAAUGNjUzMjEzZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjUzMjEzHwAFLENIRU0gOTYgLSBJbnRyb2R1Y3RuIHRvIFRlYWNoaW5nIFNjaWVuY2UgKEEpZGQCAg8PFgIfAAUEU1AwOWRkAgMPDxYCHwAFAjEzZGQCBA9kFgICAQ8PFgIfAAUCMTJkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDMuMDBkZAIID2QWBAIBDw8WAh8ABRAzLjU0NTQ1NDU0NTQ1NDU1ZGQCAw8PFgIfAAUJQisgKDMuNTUpZGQCCQ9kFgICAQ8PFgIfAGVkZALXDw9kFhRmDw8WAh8ABQxGZW5nLCBEYSBGZWlkZAIBD2QWBgIBDw8WAh8ABQQ0MzAwZGQCAw8PFgIfAAUGNjQxOTc5ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjQxOTc5HwAFL0NIRU0gMTAwQSAgLSBBbmFseXRpY2FsIENoZW0gTGFiICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEV0kwOWRkAgMPDxYCHwAFAjY1ZGQCBA9kFgICAQ8PFgIfAAUCNjJkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzguMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODEuNyVkZAIHD2QWAgIBDw8WAh8ABQQ3LjkxZGQCCA9kFgQCAQ8PFgIfAAUQMy41MzMzMzMzMzMzMzMzM2RkAgMPDxYCHwAFCUIrICgzLjUzKWRkAgkPZBYEAgEPDxYCHwAFBTIuOTAyZGQCAw8PFgIfAAUJQi0gKDIuOTApZGQC2A8PZBYUZg8PFgIfAAUMS2ltLCBKdWR5IEUuZGQCAQ9kFgYCAQ8PFgIfAAUENDMwMGRkAgMPDxYCHwAFBjY0MTk4OWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY0MTk4OR8ABS9DSEVNIDEwNUEgIC0gUGh5c2ljYWwgQ2hlbWlzdHJ5IExhYm9yYXRvcnkgIChBKWRkAgIPDxYCHwAFBFdJMDlkZAIDDw8WAh8ABQI0MWRkAgQPZBYCAgEPDxYCHwAFAjMwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTcyLjQlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk2LjYlZGQCBw9kFgICAQ8PFgIfAAUEOS4xMmRkAggPZBYEAgEPDxYCHwAFDzMuMjk2Mjk2Mjk2Mjk2M2RkAgMPDxYCHwAFCEIgKDMuMzApZGQCCQ9kFgQCAQ8PFgIfAAUFMi43NTZkZAIDDw8WAh8ABQlCLSAoMi43NilkZALZDw9kFhRmDw8WAh8ABSNDcm93bGV5LCBUaG9tYXMgRS4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzMDBkZAIDDw8WAh8ABQY2NDE5OTJkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NDE5OTIfAAUtQ0hFTSAxMDggLSBNb2xlY3VsYXIgQmlvY2hlbWlzdHJ5IExhYiAgICAgKEEpZGQCAg8PFgIfAAUEV0kwOWRkAgMPDxYCHwAFAjI4ZGQCBA9kFgICAQ8PFgIfAAUCMTVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzguNiVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzguNiVkZAIHD2QWAgIBDw8WAh8ABQQ4LjIzZGQCCA9kFgQCAQ8PFgIfAAUQMy41NzE0Mjg1NzE0Mjg1N2RkAgMPDxYCHwAFCUIrICgzLjU3KWRkAgkPZBYEAgEPDxYCHwAFBTMuNDQ4ZGQCAw8PFgIfAAUJQisgKDMuNDUpZGQC2g8PZBYUZg8PFgIfAAUjQ3Jvd2xleSwgVGhvbWFzIEUuICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MzAwZGQCAw8PFgIfAAUGNjQxOTk1ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjQxOTk1HwAFLUNIRU0gMTA4IC0gTW9sZWN1bGFyIEJpb2NoZW1pc3RyeSBMYWIgICAgIChCKWRkAgIPDxYCHwAFBFdJMDlkZAIDDw8WAh8ABQIzMGRkAgQPZBYCAgEPDxYCHwAFAjI0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk1LjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc4LjMlZGQCBw9kFgICAQ8PFgIfAAUENi45MmRkAggPZBYEAgEPDxYCHwAFBTMuMzc1ZGQCAw8PFgIfAAUJQisgKDMuMzgpZGQCCQ9kFgQCAQ8PFgIfAAUFMy40NDhkZAIDDw8WAh8ABQlCKyAoMy40NSlkZALbDw9kFhRmDw8WAh8ABSNDcm93bGV5LCBUaG9tYXMgRS4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzMDBkZAIDDw8WAh8ABQY2NDE5OTJkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NDE5OTIfAAUvQ0hFTSAxMTJBICAtIE1vbGVjdWxhciBCaW9jaGVtaXN0cnkgTGFiICAgICAoQSlkZAICDw8WAh8ABQRXSTA5ZGQCAw8PFgIfAAUCMjhkZAIED2QWAgIBDw8WAh8ABQIxNWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3OC42JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3OC42JWRkAgcPZBYCAgEPDxYCHwAFBDguMjNkZAIID2QWBAIBDw8WAh8ABRAzLjU3MTQyODU3MTQyODU3ZGQCAw8PFgIfAAUJQisgKDMuNTcpZGQCCQ9kFgQCAQ8PFgIfAAUFMy40NDhkZAIDDw8WAh8ABQlCKyAoMy40NSlkZALcDw9kFhRmDw8WAh8ABSNDcm93bGV5LCBUaG9tYXMgRS4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQzMDBkZAIDDw8WAh8ABQY2NDE5OTVkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NDE5OTUfAAUvQ0hFTSAxMTJBICAtIE1vbGVjdWxhciBCaW9jaGVtaXN0cnkgTGFiICAgICAoQilkZAICDw8WAh8ABQRXSTA5ZGQCAw8PFgIfAAUCMzBkZAIED2QWAgIBDw8WAh8ABQIyNGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NS43JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3OC4zJWRkAgcPZBYCAgEPDxYCHwAFBDYuOTJkZAIID2QWBAIBDw8WAh8ABQUzLjM3NWRkAgMPDxYCHwAFCUIrICgzLjM4KWRkAgkPZBYEAgEPDxYCHwAFBTMuNDQ4ZGQCAw8PFgIfAAUJQisgKDMuNDUpZGQC3Q8PZBYUZg8PFgIfAAURT3BlbGxhLCBTdGFubGV5IEpkZAIBD2QWBgIBDw8WAh8ABQQ0MzAwZGQCAw8PFgIfAAUGNjQxOTk4ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjQxOTk4HwAFL0NIRU0gMTE0QSAgLSBCaW9jaGVtaWNhbCBTdHJ1Y3R1cmUmRnVuY3Rpb24gKEEpZGQCAg8PFgIfAAUEV0kwOWRkAgMPDxYCHwAFAjg5ZGQCBA9kFgICAQ8PFgIfAAUCNDlkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTUuOSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUENC41NGRkAggPZBYEAgEPDxYCHwAFEDMuNjUyMTczOTEzMDQzNDhkZAIDDw8WAh8ABQlCKyAoMy42NSlkZAIJD2QWBAIBDw8WAh8ABQUyLjc4MmRkAgMPDxYCHwAFCUItICgyLjc4KWRkAt4PD2QWFGYPDxYCHwAFCVdhbmcsIFdlaWRkAgEPZBYGAgEPDxYCHwAFBDQzMDBkZAIDDw8WAh8ABQY2NDIwMDJkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NDIwMDIfAAUvQ0hFTSAxMTRCICAtIEJpb2NoZW0gRW5lcmdldGljcyZNZXRhYm9saXNtICAoQSlkZAICDw8WAh8ABQRXSTA5ZGQCAw8PFgIfAAUDMjE3ZGQCBA9kFgICAQ8PFgIfAAUCODdkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjAuOSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNDEuNCVkZAIHD2QWAgIBDw8WAh8ABQQ3LjM2ZGQCCA9kFgQCAQ8PFgIfAAUQMy4xOTI3NzEwODQzMzczNWRkAgMPDxYCHwAFCEIgKDMuMTkpZGQCCQ9kFgQCAQ8PFgIfAAUFMi41MDNkZAIDDw8WAh8ABQlDKyAoMi41MClkZALfDw9kFhRmDw8WAh8ABRJOYWthZ2F3YSwgVGVydW5hZ2FkZAIBD2QWBgIBDw8WAh8ABQQ0MzAwZGQCAw8PFgIfAAUGNjQxOTYzZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjQxOTYzHwAFLENIRU0gMTIgLSBNb2xlY3VsZXMgYW5kIFJlYWN0aW9ucyAgICAgICAgKEEpZGQCAg8PFgIfAAUEV0kwOWRkAgMPDxYCHwAFAzE2NGRkAgQPZBYCAgEPDxYCHwAFAjM0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTU4LjglZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTQ3LjElZGQCBw9kFgICAQ8PFgIfAAUENC4wMGRkAggPZBYEAgEPDxYCHwAFEDMuMzQ2MTUzODQ2MTUzODVkZAIDDw8WAh8ABQlCKyAoMy4zNSlkZAIJD2QWBAIBDw8WAh8ABQMzLjNkZAIDDw8WAh8ABQlCKyAoMy4zMClkZALgDw9kFhRmDw8WAh8ABRRIZW5kcmlja3NvbiwgRGF2aWQgTmRkAgEPZBYGAgEPDxYCHwAFBDQzMDBkZAIDDw8WAh8ABQY2NDIwMTFkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NDIwMTEfAAUvQ0hFTSAxMjBCICAtIElub3JnYW5pYyBDaGVtaXN0cnkgSUkgICAgICAgICAoQSlkZAICDw8WAh8ABQRXSTA5ZGQCAw8PFgIfAAUCNzlkZAIED2QWAgIBDw8WAh8ABQIyMGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NS4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MC4wJWRkAgcPZBYCAgEPDxYCHwAFBDMuNDBkZAIID2QWBAIBDw8WAh8ABQMzLjdkZAIDDw8WAh8ABQlBLSAoMy43MClkZAIJD2QWBAIBDw8WAh8ABQUzLjMyNGRkAgMPDxYCHwAFCUIrICgzLjMyKWRkAuEPD2QWFGYPDxYCHwAFD1RhdWJlciwgTWljaGFlbGRkAgEPZBYGAgEPDxYCHwAFBDQzMDBkZAIDDw8WAh8ABQY2NDIwMTVkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NDIwMTUfAAUtQ0hFTSAxMjcgLSBQaHlzaWNhbCBDaGVtaXN0cnkgICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEV0kwOWRkAgMPDxYCHwAFAzE1NmRkAgQPZBYCAgEPDxYCHwAFAzEyNWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3MS4yJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ny4yJWRkAgcPZBYCAgEPDxYCHwAFBDUuNTZkZAIID2QWBAIBDw8WAh8ABQ8zLjA2NTU3Mzc3MDQ5MThkZAIDDw8WAh8ABQhCICgzLjA3KWRkAgkPZBYEAgEPDxYCHwAFBTIuNTExZGQCAw8PFgIfAAUJQysgKDIuNTEpZGQC4g8PZBYUZg8PFgIfAAURTGluZGVuYmVyZywgS2F0amFkZAIBD2QWBgIBDw8WAh8ABQQ0MzAwZGQCAw8PFgIfAAUGNjQyMDIzZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjQyMDIzHwAFLUNIRU0gMTMyIC0gUGh5c2ljYWwgQ2hlbWlzdHJ5ICAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMDlkZAIDDw8WAh8ABQMxMDNkZAIED2QWAgIBDw8WAh8ABQI2MWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU1NC4yJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU2OS41JWRkAgcPZBYCAgEPDxYCHwAFBDcuMjVkZAIID2QWBAIBDw8WAh8ABQEzZGQCAw8PFgIfAAUIQiAoMy4wMClkZAIJD2QWBAIBDw8WAh8ABQUyLjUwNmRkAgMPDxYCHwAFCUMrICgyLjUxKWRkAuMPD2QWFGYPDxYCHwAFC1lhbmcsIEplcnJ5ZGQCAQ9kFgYCAQ8PFgIfAAUENDMwMGRkAgMPDxYCHwAFBjY0MjAyOGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY0MjAyOB8ABS9DSEVNIDE0MEEgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSSAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMDlkZAIDDw8WAh8ABQMzNjhkZAIED2QWAgIBDw8WAh8ABQMyNTdkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODQuMyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTMuNSVkZAIHD2QWAgIBDw8WAh8ABQQ3LjM5ZGQCCA9kFgQCAQ8PFgIfAAUQMy4xMzc2NTE4MjE4NjIzNWRkAgMPDxYCHwAFCEIgKDMuMTQpZGQCCQ9kFgQCAQ8PFgIfAAUFMi42MzZkZAIDDw8WAh8ABQlDKyAoMi42NClkZALkDw9kFhRmDw8WAh8ABRJHaWFubmVzY2hpLCBOYXRoYW5kZAIBD2QWBgIBDw8WAh8ABQQ0MzAwZGQCAw8PFgIfAAUGNjQyMDM5ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjQyMDM5HwAFL0NIRU0gMTQwQSAgLSBPcmdhbmljIENoZW1pc3RyeSBJICAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUEV0kwOWRkAgMPDxYCHwAFAzMzMGRkAgQPZBYCAgEPDxYCHwAFAzIzMWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NC40JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ni44JWRkAgcPZBYCAgEPDxYCHwAFBDcuNjBkZAIID2QWBAIBDw8WAh8ABQ8zLjAwNDU4NzE1NTk2MzNkZAIDDw8WAh8ABQhCICgzLjAwKWRkAgkPZBYEAgEPDxYCHwAFBTIuNTc1ZGQCAw8PFgIfAAUJQysgKDIuNTgpZGQC5Q8PZBYUZg8PFgIfAAUSQnVya2FydCwgTWljaGFlbCBEZGQCAQ9kFgYCAQ8PFgIfAAUENDMwMGRkAgMPDxYCHwAFBjY0MjA2MWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY0MjA2MR8ABS9DSEVNIDE0MEIgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSUkgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMDlkZAIDDw8WAh8ABQMzMDhkZAIED2QWAgIBDw8WAh8ABQMyNThkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzkuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTQuMCVkZAIHD2QWAgIBDw8WAh8ABQQ3LjAxZGQCCA9kFgQCAQ8PFgIfAAUQMy4yODIxNTc2NzYzNDg1NWRkAgMPDxYCHwAFCEIgKDMuMjgpZGQCCQ9kFgQCAQ8PFgIfAAUFMi43OTdkZAIDDw8WAh8ABQlCLSAoMi44MClkZALmDw9kFhRmDw8WAh8ABRZUaGVvZG9yYWtpcywgRW1tYW5vdWlsZGQCAQ9kFgYCAQ8PFgIfAAUENDMwMGRkAgMPDxYCHwAFBjY0MjA3MmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY0MjA3Mh8ABS9DSEVNIDE0MEIgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSUkgICAgICAgICAgIChCKWRkAgIPDxYCHwAFBFdJMDlkZAIDDw8WAh8ABQMyNzNkZAIED2QWAgIBDw8WAh8ABQMxNDBkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzYuNiVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTMuNCVkZAIHD2QWAgIBDw8WAh8ABQQ2LjczZGQCCA9kFgQCAQ8PFgIfAAUQMy4xMzE3ODI5NDU3MzY0M2RkAgMPDxYCHwAFCEIgKDMuMTMpZGQCCQ9kFgQCAQ8PFgIfAAUFMi42NDVkZAIDDw8WAh8ABQlDKyAoMi42NSlkZALnDw9kFhRmDw8WAh8ABRNXaGl0ZXNlbGwsIEphbWVzIEsuZGQCAQ9kFgYCAQ8PFgIfAAUENDMwMGRkAgMPDxYCHwAFBjY0MjA4M2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY0MjA4Mx8ABS9DSEVNIDE0MEIgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSUkgICAgICAgICAgIChDKWRkAgIPDxYCHwAFBFdJMDlkZAIDDw8WAh8ABQMyMTBkZAIED2QWAgIBDw8WAh8ABQI3NGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3NC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU1OS43JWRkAgcPZBYCAgEPDxYCHwAFBDYuMjBkZAIID2QWBAIBDw8WAh8ABRAzLjM2MjMxODg0MDU3OTcxZGQCAw8PFgIfAAUJQisgKDMuMzYpZGQCCQ9kFgQCAQ8PFgIfAAUEMi4zNGRkAgMPDxYCHwAFCUMrICgyLjM0KWRkAugPD2QWFGYPDxYCHwAFDVdlaXptYW4sIEhhaW1kZAIBD2QWBgIBDw8WAh8ABQQ0MzAwZGQCAw8PFgIfAAUGNjQyMDk0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjQyMDk0HwAFL0NIRU0gMTQwQkggLSBIb25vcnMgT3JnYW5pYyBDaGVtaXN0cnkgICAgICAgKEEpZGQCAg8PFgIfAAUEV0kwOWRkAgMPDxYCHwAFAjQxZGQCBA9kFgICAQ8PFgIfAAUCMzhkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk3LjQlZGQCBw9kFgICAQ8PFgIfAAUENi42NmRkAggPZBYEAgEPDxYCHwAFEDMuNjc1Njc1Njc1Njc1NjhkZAIDDw8WAh8ABQlCKyAoMy42OClkZAIJD2QWBAIBDw8WAh8ABQUzLjc4NWRkAgMPDxYCHwAFCUEtICgzLjc5KWRkAukPD2QWFGYPDxYCHwAFEEFsYml6YXRpLCBLaW0gRi5kZAIBD2QWBgIBDw8WAh8ABQQ0MzAwZGQCAw8PFgIfAAUGNjQyMDk3ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjQyMDk3HwAFL0NIRU0gMTQwQyAgLSBPcmdhbmljIENoZW1pc3RyeSBJSUkgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEV0kwOWRkAgMPDxYCHwAFAzI1OWRkAgQPZBYCAgEPDxYCHwAFAzEzNGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MS43JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ2LjE2ZGQCCA9kFgQCAQ8PFgIfAAUQMy4zNzk4NDQ5NjEyNDAzMWRkAgMPDxYCHwAFCUIrICgzLjM4KWRkAgkPZBYEAgEPDxYCHwAFBTIuNjc5ZGQCAw8PFgIfAAUJQysgKDIuNjgpZGQC6g8PZBYUZg8PFgIfAAUUVGVybmFuc2t5LCBSb2JlcnQgSi5kZAIBD2QWBgIBDw8WAh8ABQQ0MzAwZGQCAw8PFgIfAAUGNjQyMTA4ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjQyMTA4HwAFL0NIRU0gMTQzQSAgLSBPcmdhbmljIENoZW1pc3RyeSBMYWJvcmF0b3J5ICAgKEEpZGQCAg8PFgIfAAUEV0kwOWRkAgMPDxYCHwAFAzM1OWRkAgQPZBYCAgEPDxYCHwAFAzI2OGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3MC4yJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU2OC4yJWRkAgcPZBYCAgEPDxYCHwAFBDYuNDBkZAIID2QWBAIBDw8WAh8ABRAzLjA1ODMzMzMzMzMzMzMzZGQCAw8PFgIfAAUIQiAoMy4wNilkZAIJD2QWBAIBDw8WAh8ABQUzLjA5NGRkAgMPDxYCHwAFCEIgKDMuMDkpZGQC6w8PZBYUZg8PFgIfAAUNV2Vpem1hbiwgSGFpbWRkAgEPZBYGAgEPDxYCHwAFBDQzMDBkZAIDDw8WAh8ABQY2NDIxMzJkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NDIxMzIfAAUvQ0hFTSAxNDNBSCAtIEhvbm9ycyBPcmdhbmljIENoZW1pc3RyeSBMYWIgICAoQSlkZAICDw8WAh8ABQRXSTA5ZGQCAw8PFgIfAAUCNDBkZAIED2QWAgIBDw8WAh8ABQIyMmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4MS44JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MC45JWRkAgcPZBYCAgEPDxYCHwAFBDkuNDFkZAIID2QWBAIBDw8WAh8ABRAzLjQ3NjE5MDQ3NjE5MDQ4ZGQCAw8PFgIfAAUJQisgKDMuNDgpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4yMDVkZAIDDw8WAh8ABQhCICgzLjIxKWRkAuwPD2QWFGYPDxYCHwAFFFRlcm5hbnNreSwgUm9iZXJ0IEouZGQCAQ9kFgYCAQ8PFgIfAAUENDMwMGRkAgMPDxYCHwAFBjY0MjEzN2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY0MjEzNx8ABS9DSEVNIDE0M0IgIC0gT3JnYW5pYyBDaGVtaXN0cnkgTGFib3JhdG9yeSAgIChBKWRkAgIPDxYCHwAFBFdJMDlkZAIDDw8WAh8ABQI3NGRkAgQPZBYCAgEPDxYCHwAFAjcyZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc2LjElZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc5LjElZGQCBw9kFgICAQ8PFgIfAAUENy4zNGRkAggPZBYEAgEPDxYCHwAFEDIuOTcxMDE0NDkyNzUzNjJkZAIDDw8WAh8ABQlCLSAoMi45NylkZAIJD2QWBAIBDw8WAh8ABQUzLjEzOGRkAgMPDxYCHwAFCEIgKDMuMTQpZGQC7Q8PZBYUZg8PFgIfAAUSUG9tZXJveSwgUm9iZXJ0IFMuZGQCAQ9kFgYCAQ8PFgIfAAUENDMwMGRkAgMPDxYCHwAFBjY0MjE0M2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY0MjE0Mx8ABS9DSEVNIDE0OUIgIC0gRW52aXJvbm1lbnRhbCBDaGVtaXN0cnkgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMDlkZAIDDw8WAh8ABQIzNGRkAgQPZBYCAgEPDxYCHwAFAjI2ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkyLjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkyLjMlZGQCBw9kFgICAQ8PFgIfAAUENS45NmRkAggPZBYEAgEPDxYCHwAFEDMuMzQ2MTUzODQ2MTUzODVkZAIDDw8WAh8ABQlCKyAoMy4zNSlkZAIJD2QWBAIBDw8WAh8ABQUzLjAwOWRkAgMPDxYCHwAFCEIgKDMuMDEpZGQC7g8PZBYUZg8PFgIfAAUPR2xhemVyLCBFZGl0aCBDZGQCAQ9kFgYCAQ8PFgIfAAUENDMwMGRkAgMPDxYCHwAFBjY0MTk3NGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY0MTk3NB8ABSxDSEVNIDE1IC0gQ2hlbWlzdHJ5IG9mIHRoZSBVbml2ZXJzZSAgICAgIChBKWRkAgIPDxYCHwAFBFdJMDlkZAIDDw8WAh8ABQI0OWRkAgQPZBYCAgEPDxYCHwAFAjQyZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc2LjIlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTczLjglZGQCBw9kFgICAQ8PFgIfAAUEMi42OWRkAggPZBYEAgEPDxYCHwAFEDMuMzc5MzEwMzQ0ODI3NTlkZAIDDw8WAh8ABQlCKyAoMy4zOClkZAIJD2QWBAIBDw8WAh8ABQUzLjM4OGRkAgMPDxYCHwAFCUIrICgzLjM5KWRkAu8PD2QWFGYPDxYCHwAFFE5pY29sYW91LCBLeXJpYWNvcyBDZGQCAQ9kFgYCAQ8PFgIfAAUENDMwMGRkAgMPDxYCHwAFBjY0NjY4M2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY0NjY4Mx8ABS1DSEVNIDE1MSAtIE1vbGVjdWxlcyBUaGF0IENoYW5nZWQgV29ybGQgICAoQSlkZAICDw8WAh8ABQRXSTA5ZGQCAw8PFgIfAAUCOTdkZAIED2QWAgIBDw8WAh8ABQI1N2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUEMy41NWRkAggPZBYEAgEPDxYCHwAFEDMuNzg5NDczNjg0MjEwNTNkZAIDDw8WAh8ABQlBLSAoMy43OSlkZAIJD2QWBAIBDw8WAh8ABQUzLjQyNWRkAgMPDxYCHwAFCUIrICgzLjQzKWRkAvAPD2QWFGYPDxYCHwAFFkJha2VyLCBUaW1vdGh5IFN0YW5sZXlkZAIBD2QWBgIBDw8WAh8ABQQ0MzAwZGQCAw8PFgIfAAUGNjQyMTQ1ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjQyMTQ1HwAFLUNIRU0gMTY1IC0gM0QgRWxjdHJvbiBNaWNyb3Njb3B5L01hY3JvbW9sIChBKWRkAgIPDxYCHwAFBFdJMDlkZAIDDw8WAh8ABQIxMGRkAgQPZBYCAgEPDxYCHwAFAjEwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ0LjEwZGQCCA9kFgQCAQ8PFgIfAAUDMy42ZGQCAw8PFgIfAAUJQisgKDMuNjApZGQCCQ9kFgICAQ8PFgIfAGVkZALxDw9kFhRmDw8WAh8ABRJQb21lcm95LCBSb2JlcnQgUy5kZAIBD2QWBgIBDw8WAh8ABQQ0MzAwZGQCAw8PFgIfAAUGNjQyMTQzZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjQyMTQzHwAFLUNIRU0gMTcyIC0gRW52aXJvbm1lbnRhbCBDaGVtaXN0cnkgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMDlkZAIDDw8WAh8ABQIzNGRkAgQPZBYCAgEPDxYCHwAFAjI2ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkyLjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkyLjMlZGQCBw9kFgICAQ8PFgIfAAUENS45NmRkAggPZBYEAgEPDxYCHwAFEDMuMzQ2MTUzODQ2MTUzODVkZAIDDw8WAh8ABQlCKyAoMy4zNSlkZAIJD2QWBAIBDw8WAh8ABQUzLjAwOWRkAgMPDxYCHwAFCEIgKDMuMDEpZGQC8g8PZBYUZg8PFgIfAAURQ3p3b3Jrb3dza2ksIEpvaG5kZAIBD2QWBgIBDw8WAh8ABQQ0MzAwZGQCAw8PFgIfAAUGNjQyMTQ4ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjQyMTQ4HwAFLUNIRU0gMTg3IC0gRm91bmRuIG9mIFRlYWNoJkxlYXJuIFNjaWVuY2UgIChBKWRkAgIPDxYCHwAFBFdJMDlkZAIDDw8WAh8ABQE5ZGQCBA9kFgICAQ8PFgIfAAUBOWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUEMy43NWRkAggPZBYEAgEPDxYCHwAFEDMuNzc3Nzc3Nzc3Nzc3NzhkZAIDDw8WAh8ABQlBLSAoMy43OClkZAIJD2QWAgIBDw8WAh8AZWRkAvMPD2QWFGYPDxYCHwAFI05ld3NhbSwgSm9obiAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDMwMGRkAgMPDxYCHwAFBjY0Njg0MmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY0Njg0Mh8ABS1DSEVNIDE5MiAtIFNyIFNlbWluYXIgaW4gQ2hlbSAmIEJpb2NoZW0gICAoQSlkZAICDw8WAh8ABQRXSTA5ZGQCAw8PFgIfAAUCMTFkZAIED2QWAgIBDw8WAh8ABQIxMmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUEMS4zM2RkAggPZBYEAgEPDxYCHwAFATRkZAIDDw8WAh8ABQhBICg0LjAwKWRkAgkPZBYCAgEPDxYCHwBlZGQC9A8PZBYUZg8PFgIfAAUWU2FpbG9yLCBNaWNoYWVsIEpvc2VwaGRkAgEPZBYGAgEPDxYCHwAFBDQzMDBkZAIDDw8WAh8ABQY2NDY4NDJkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NDY4NDIfAAUtQ0hFTSAxOTIgLSBTciBTZW1pbmFyIGluIENoZW0gJiBCaW9jaGVtICAgKEEpZGQCAg8PFgIfAAUEV0kwOWRkAgMPDxYCHwAFAjExZGQCBA9kFgICAQ8PFgIfAAUCMTJkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDEuMzNkZAIID2QWBAIBDw8WAh8ABQE0ZGQCAw8PFgIfAAUIQSAoNC4wMClkZAIJD2QWAgIBDw8WAh8AZWRkAvUPD2QWFGYPDxYCHwAFD1NpbmhhLCBBbWl0YWJoYWRkAgEPZBYGAgEPDxYCHwAFBDQzMDBkZAIDDw8WAh8ABQY2NDE4NTFkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NDE4NTEfAAUtQ0hFTSA2QSAgLSBHZW5lcmFsIENoZW1pc3RyeSBJICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEV0kwOWRkAgMPDxYCHwAFAzMxMmRkAgQPZBYCAgEPDxYCHwAFAzEwM2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3Ni4zJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU1OC42JWRkAgcPZBYCAgEPDxYCHwAFBDYuMzRkZAIID2QWBAIBDw8WAh8ABRAyLjk0ODk3OTU5MTgzNjczZGQCAw8PFgIfAAUJQi0gKDIuOTUpZGQCCQ9kFgQCAQ8PFgIfAAUFMi41MjZkZAIDDw8WAh8ABQlDKyAoMi41MylkZAL2Dw9kFhRmDw8WAh8ABQxIb2VnZXIsIENhcmxkZAIBD2QWBgIBDw8WAh8ABQQ0MzAwZGQCAw8PFgIfAAUGNjQxODYxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjQxODYxHwAFLUNIRU0gNkEgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSSAgICAgICAgICAgIChCKWRkAgIPDxYCHwAFBFdJMDlkZAIDDw8WAh8ABQMzMjVkZAIED2QWAgIBDw8WAh8ABQMyMzhkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODkuMyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTMuMSVkZAIHD2QWAgIBDw8WAh8ABQQ2LjAyZGQCCA9kFgQCAQ8PFgIfAAUQMi45MDM5MzAxMzEwMDQzN2RkAgMPDxYCHwAFCUItICgyLjkwKWRkAgkPZBYEAgEPDxYCHwAFBDIuNjdkZAIDDw8WAh8ABQlDKyAoMi42NylkZAL3Dw9kFhRmDw8WAh8ABQ9Dcm93ZWxsLCBKb2huIEVkZAIBD2QWBgIBDw8WAh8ABQQ0MzAwZGQCAw8PFgIfAAUGNjQxODcxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjQxODcxHwAFLUNIRU0gNkIgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSUkgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMDlkZAIDDw8WAh8ABQMzMDRkZAIED2QWAgIBDw8WAh8ABQI4MGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3OC41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU2Ny4xJWRkAgcPZBYCAgEPDxYCHwAFBDcuMThkZAIID2QWBAIBDw8WAh8ABRAzLjA5MDkwOTA5MDkwOTA5ZGQCAw8PFgIfAAUIQiAoMy4wOSlkZAIJD2QWBAIBDw8WAh8ABQUyLjUyNmRkAgMPDxYCHwAFCUMrICgyLjUzKWRkAvgPD2QWFGYPDxYCHwAFEEt1bW1lbCwgQW5kcmV3IENkZAIBD2QWBgIBDw8WAh8ABQQ0MzAwZGQCAw8PFgIfAAUGNjQxODgxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjQxODgxHwAFLUNIRU0gNkIgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSUkgICAgICAgICAgIChCKWRkAgIPDxYCHwAFBFdJMDlkZAIDDw8WAh8ABQMyOTVkZAIED2QWAgIBDw8WAh8ABQMxMjVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODIuMyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTEuOSVkZAIHD2QWAgIBDw8WAh8ABQQ2LjQ1ZGQCCA9kFgQCAQ8PFgIfAAUFMy4wODhkZAIDDw8WAh8ABQhCICgzLjA5KWRkAgkPZBYEAgEPDxYCHwAFBTIuNjgxZGQCAw8PFgIfAAUJQysgKDIuNjgpZGQC+Q8PZBYUZg8PFgIfAAURTXVsbGVyLCBVbHJpY2ggSy5kZAIBD2QWBgIBDw8WAh8ABQQ0MzAwZGQCAw8PFgIfAAUGNjQxODkxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjQxODkxHwAFLUNIRU0gNkIgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSUkgICAgICAgICAgIChDKWRkAgIPDxYCHwAFBFdJMDlkZAIDDw8WAh8ABQMxMDNkZAIED2QWAgIBDw8WAh8ABQI4NmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3Ny44JWRkAgcPZBYCAgEPDxYCHwAFBDUuMTBkZAIID2QWBAIBDw8WAh8ABRAzLjI4NTcxNDI4NTcxNDI5ZGQCAw8PFgIfAAUIQiAoMy4yOSlkZAIJD2QWBAIBDw8WAh8ABQQyLjU0ZGQCAw8PFgIfAAUJQysgKDIuNTQpZGQC+g8PZBYUZg8PFgIfAAUPYnJ5ZGdlcywgc3RhY2V5ZGQCAQ9kFgYCAQ8PFgIfAAUENDMwMGRkAgMPDxYCHwAFBjY0MTkwMWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY0MTkwMR8ABS1DSEVNIDZCICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IElJICAgICAgICAgICAoRClkZAICDw8WAh8ABQRXSTA5ZGQCAw8PFgIfAAUDMjYwZGQCBA9kFgICAQ8PFgIfAAUDMTkyZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTY1LjQlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTYzLjQlZGQCBw9kFgICAQ8PFgIfAAUENi45MWRkAggPZBYEAgEPDxYCHwAFEDIuODI3OTU2OTg5MjQ3MzFkZAIDDw8WAh8ABQlCLSAoMi44MylkZAIJD2QWBAIBDw8WAh8ABQUyLjU3NGRkAgMPDxYCHwAFCUMrICgyLjU3KWRkAvsPD2QWFGYPDxYCHwAFFEpvaG5zb24sIENocmlzdGluYSBBZGQCAQ9kFgYCAQ8PFgIfAAUENDMwMGRkAgMPDxYCHwAFBjY0MTkxMWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY0MTkxMR8ABS1DSEVNIDZCICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IElJICAgICAgICAgICAoRSlkZAICDw8WAh8ABQRXSTA5ZGQCAw8PFgIfAAUDMzIyZGQCBA9kFgICAQ8PFgIfAAUDMjQzZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg2LjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk3LjklZGQCBw9kFgICAQ8PFgIfAAUENi44MWRkAggPZBYEAgEPDxYCHwAFEDMuMjIxNzU3MzIyMTc1NzNkZAIDDw8WAh8ABQhCICgzLjIyKWRkAgkPZBYEAgEPDxYCHwAFBTIuNzYyZGQCAw8PFgIfAAUJQi0gKDIuNzYpZGQC/A8PZBYUZg8PFgIfAAUOV2VhcmUsIEpvaG4gSC5kZAIBD2QWBgIBDw8WAh8ABQQ0MzAwZGQCAw8PFgIfAAUGNjQxOTIxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjQxOTIxHwAFLUNIRU0gNkJIIC0gSG9ub3JzIEdlbmVyYWwgQ2hlbWlzdHJ5IElJICAgIChBKWRkAgIPDxYCHwAFBFdJMDlkZAIDDw8WAh8ABQI4OGRkAgQPZBYCAgEPDxYCHwAFAjYwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTUzLjQlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTU2LjclZGQCBw9kFgICAQ8PFgIfAAUENy4xN2RkAggPZBYEAgEPDxYCHwAFDzMuMTg2NDQwNjc3OTY2MWRkAgMPDxYCHwAFCEIgKDMuMTkpZGQCCQ9kFgQCAQ8PFgIfAAUFMy40OTlkZAIDDw8WAh8ABQlCKyAoMy41MClkZAL9Dw9kFhRmDw8WAh8ABRRCZXJuaW9sbGVzLCBTYW5kcmluZWRkAgEPZBYGAgEPDxYCHwAFBDQzMDBkZAIDDw8WAh8ABQY2NDE5MjdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NDE5MjcfAAUtQ0hFTSA2QkwgLSBJbnRyIElub3JnYW5pYyBDaGVtIExhYm9yYXRvcnkgKEEpZGQCAg8PFgIfAAUEV0kwOWRkAgMPDxYCHwAFAzIyNmRkAgQPZBYCAgEPDxYCHwAFAjI3ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTYzLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg4LjklZGQCBw9kFgICAQ8PFgIfAAUEOC42NWRkAggPZBYEAgEPDxYCHwAFEDMuMzQ2MTUzODQ2MTUzODVkZAIDDw8WAh8ABQlCKyAoMy4zNSlkZAIJD2QWBAIBDw8WAh8ABQUyLjk0NmRkAgMPDxYCHwAFCUItICgyLjk1KWRkAv4PD2QWFGYPDxYCHwAFFEJlcm5pb2xsZXMsIFNhbmRyaW5lZGQCAQ9kFgYCAQ8PFgIfAAUENDMwMGRkAgMPDxYCHwAFBjY0MTk0MGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY0MTk0MB8ABS1DSEVNIDZCTCAtIEludHIgSW5vcmdhbmljIENoZW0gTGFib3JhdG9yeSAoQilkZAICDw8WAh8ABQRXSTA5ZGQCAw8PFgIfAAUDMjQwZGQCBA9kFgICAQ8PFgIfAAUCODFkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjUuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ3LjU2ZGQCCA9kFgQCAQ8PFgIfAAUQMy4yMjUzNTIxMTI2NzYwNmRkAgMPDxYCHwAFCEIgKDMuMjMpZGQCCQ9kFgQCAQ8PFgIfAAUFMi45NDZkZAIDDw8WAh8ABQlCLSAoMi45NSlkZAL/Dw9kFhRmDw8WAh8ABQxIb2VnZXIsIENhcmxkZAIBD2QWBgIBDw8WAh8ABQQ0MzAwZGQCAw8PFgIfAAUGNjQxOTUzZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjQxOTUzHwAFLUNIRU0gNkMgIC0gR2VuZXJhbCBDaGVtaXN0cnkgIElJSSAgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMDlkZAIDDw8WAh8ABQMxODRkZAIED2QWAgIBDw8WAh8ABQMxMzRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODguNCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTMuOCVkZAIHD2QWAgIBDw8WAh8ABQQ1LjM3ZGQCCA9kFgQCAQ8PFgIfAAUQMy4xOTY4NTAzOTM3MDA3OWRkAgMPDxYCHwAFCEIgKDMuMjApZGQCCQ9kFgQCAQ8PFgIfAAUFMi43NjlkZAIDDw8WAh8ABQlCLSAoMi43NylkZAKAEA9kFhRmDw8WAh8ABRFDendvcmtvd3NraSwgSm9obmRkAgEPZBYGAgEPDxYCHwAFBDQzMDBkZAIDDw8WAh8ABQY2NDE5NzdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NDE5NzcfAAUsQ0hFTSA4NyAtIEZyZXNobWFuIFNlbWluYXIgICAgICAgICAgICAgICAoQilkZAICDw8WAh8ABQRXSTA5ZGQCAw8PFgIfAAUBOGRkAgQPZBYCAgEPDxYCHwAFATZkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDEuMTdkZAIID2QWAgIBDw8WAh8AZWRkAgkPZBYCAgEPDxYCHwBlZGQCgRAPZBYUZg8PFgIfAAURQ3p3b3Jrb3dza2ksIEpvaG5kZAIBD2QWBgIBDw8WAh8ABQQ0MzAwZGQCAw8PFgIfAAUGNjQxOTc4ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjQxOTc4HwAFLENIRU0gOTYgLSBJbnRyb2R1Y3RuIHRvIFRlYWNoaW5nIFNjaWVuY2UgKEEpZGQCAg8PFgIfAAUEV0kwOWRkAgMPDxYCHwAFAjE4ZGQCBA9kFgICAQ8PFgIfAAUCMTZkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkzLjMlZGQCBw9kFgICAQ8PFgIfAAUEMi44OGRkAggPZBYEAgEPDxYCHwAFEDMuNTcxNDI4NTcxNDI4NTdkZAIDDw8WAh8ABQlCKyAoMy41NylkZAIJD2QWAgIBDw8WAh8AZWRkAoIQD2QWFGYPDxYCHwAFI0ZlbmcsIERhIEZlaSAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI5MGRkAgMPDxYCHwAFBjYzMDk0NGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYzMDk0NB8ABS9DSEVNIDEwMEEgIC0gQW5hbHl0aWNhbCBDaGVtIExhYiAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMDhkZAIDDw8WAh8ABQMxMDBkZAIED2QWAgIBDw8WAh8ABQI4M2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3Ny44JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3OC44JWRkAgcPZBYCAgEPDxYCHwAFBDguNzRkZAIID2QWBAIBDw8WAh8ABRAzLjM1ODAyNDY5MTM1ODAyZGQCAw8PFgIfAAUJQisgKDMuMzYpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4xODdkZAIDDw8WAh8ABQhCICgzLjE5KWRkAoMQD2QWFGYPDxYCHwAFI3N0dWFydCwgY2hyaXN0aW5hICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI5MGRkAgMPDxYCHwAFBjYzMDk1MWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYzMDk1MR8ABS9DSEVNIDEwNUEgIC0gUGh5c2ljYWwgQ2hlbWlzdHJ5IExhYm9yYXRvcnkgIChBKWRkAgIPDxYCHwAFBEZBMDhkZAIDDw8WAh8ABQIzOGRkAgQPZBYCAgEPDxYCHwAFAjMwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkzLjElZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk2LjYlZGQCBw9kFgICAQ8PFgIfAAUENy45NWRkAggPZBYEAgEPDxYCHwAFEDMuMjU5MjU5MjU5MjU5MjZkZAIDDw8WAh8ABQhCICgzLjI2KWRkAgkPZBYEAgEPDxYCHwAFBTIuODc2ZGQCAw8PFgIfAAUJQi0gKDIuODgpZGQChBAPZBYUZg8PFgIfAAUeQ3Jvd2xleSwgVGhvbWFzIEUuICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI5MGRkAgMPDxYCHwAFBjYzMDk1NGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYzMDk1NB8ABS1DSEVNIDEwOCAtIE1vbGVjdWxhciBCaW9jaGVtaXN0cnkgTGFiICAgICAoQSlkZAICDw8WAh8ABQRGQTA4ZGQCAw8PFgIfAAUCMTRkZAIED2QWAgIBDw8WAh8ABQIxMWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODEuOCVkZAIHD2QWAgIBDw8WAh8ABQQ2LjMyZGQCCA9kFgQCAQ8PFgIfAAUQMy43MjcyNzI3MjcyNzI3M2RkAgMPDxYCHwAFCUEtICgzLjczKWRkAgkPZBYCAgEPDxYCHwBlZGQChRAPZBYUZg8PFgIfAAUeSmVubmluZ3MsIFBhdHJpY2lhIEEuICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI5MGRkAgMPDxYCHwAFBjYzMDk1NGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYzMDk1NB8ABS1DSEVNIDEwOCAtIE1vbGVjdWxhciBCaW9jaGVtaXN0cnkgTGFiICAgICAoQSlkZAICDw8WAh8ABQRGQTA4ZGQCAw8PFgIfAAUCMTRkZAIED2QWAgIBDw8WAh8ABQIxMWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTAuOSVkZAIHD2QWAgIBDw8WAh8ABQQ2LjMyZGQCCA9kFgQCAQ8PFgIfAAUQMy43MjcyNzI3MjcyNzI3M2RkAgMPDxYCHwAFCUEtICgzLjczKWRkAgkPZBYCAgEPDxYCHwBlZGQChhAPZBYUZg8PFgIfAAUjQ3Jvd2xleSwgVGhvbWFzIEUuICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjkwZGQCAw8PFgIfAAUGNjM1MDg2ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjM1MDg2HwAFLUNIRU0gMTA4IC0gTW9sZWN1bGFyIEJpb2NoZW1pc3RyeSBMYWIgICAgIChCKWRkAgIPDxYCHwAFBEZBMDhkZAIDDw8WAh8ABQIyNmRkAgQPZBYCAgEPDxYCHwAFAjE2ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgxLjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg3LjUlZGQCBw9kFgICAQ8PFgIfAAUENi43NWRkAggPZBYEAgEPDxYCHwAFAzMuNmRkAgMPDxYCHwAFCUIrICgzLjYwKWRkAgkPZBYEAgEPDxYCHwAFBTMuMzg1ZGQCAw8PFgIfAAUJQisgKDMuMzkpZGQChxAPZBYUZg8PFgIfAAUeSmVubmluZ3MsIFBhdHJpY2lhIEEuICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI5MGRkAgMPDxYCHwAFBjYzNTA4NmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYzNTA4Nh8ABS1DSEVNIDEwOCAtIE1vbGVjdWxhciBCaW9jaGVtaXN0cnkgTGFiICAgICAoQilkZAICDw8WAh8ABQRGQTA4ZGQCAw8PFgIfAAUCMjZkZAIED2QWAgIBDw8WAh8ABQIxNmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NC42JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ2Ljg4ZGQCCA9kFgQCAQ8PFgIfAAUDMy42ZGQCAw8PFgIfAAUJQisgKDMuNjApZGQCCQ9kFgQCAQ8PFgIfAAUFMy4zODVkZAIDDw8WAh8ABQlCKyAoMy4zOSlkZAKIEA9kFhRmDw8WAh8ABSNDcm93bGV5LCBUaG9tYXMgRS4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyOTBkZAIDDw8WAh8ABQY2MzA5MzdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MzA5MzcfAAUsQ0hFTSAxMSAtIFRoZSBQZXJpb2RpYyBUYWJsZSAgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTA4ZGQCAw8PFgIfAAUDMTY5ZGQCBA9kFgICAQ8PFgIfAAUCNzVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzMuNiVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNDkuMyVkZAIHD2QWAgIBDw8WAh8ABQQyLjM2ZGQCCA9kFgQCAQ8PFgIfAAUQMy41MDgxOTY3MjEzMTE0OGRkAgMPDxYCHwAFCUIrICgzLjUxKWRkAgkPZBYEAgEPDxYCHwAFBTMuMzEzZGQCAw8PFgIfAAUJQisgKDMuMzEpZGQCiRAPZBYUZg8PFgIfAAUjUG9tZXJveSwgUm9iZXJ0IFMuICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjkwZGQCAw8PFgIfAAUGNjQyNzAzZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjQyNzAzHwAFLENIRU0gMTEgLSBUaGUgUGVyaW9kaWMgVGFibGUgICAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUERkEwOGRkAgMPDxYCHwAFAzE4MWRkAgQPZBYCAgEPDxYCHwAFAzExMmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Mi43JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MS44JWRkAgcPZBYCAgEPDxYCHwAFBDMuODVkZAIID2QWBAIBDw8WAh8ABQMzLjNkZAIDDw8WAh8ABQlCKyAoMy4zMClkZAIJD2QWBAIBDw8WAh8ABQUyLjY2MWRkAgMPDxYCHwAFCUMrICgyLjY2KWRkAooQD2QWFGYPDxYCHwAFHkNyb3dsZXksIFRob21hcyBFLiAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyOTBkZAIDDw8WAh8ABQY2MzA5NTRkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MzA5NTQfAAUvQ0hFTSAxMTJBICAtIE1vbGVjdWxhciBCaW9jaGVtaXN0cnkgTGFiICAgICAoQSlkZAICDw8WAh8ABQRGQTA4ZGQCAw8PFgIfAAUCMTRkZAIED2QWAgIBDw8WAh8ABQIxMWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODEuOCVkZAIHD2QWAgIBDw8WAh8ABQQ2LjMyZGQCCA9kFgQCAQ8PFgIfAAUQMy43MjcyNzI3MjcyNzI3M2RkAgMPDxYCHwAFCUEtICgzLjczKWRkAgkPZBYCAgEPDxYCHwBlZGQCixAPZBYUZg8PFgIfAAUeSmVubmluZ3MsIFBhdHJpY2lhIEEuICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI5MGRkAgMPDxYCHwAFBjYzMDk1NGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYzMDk1NB8ABS9DSEVNIDExMkEgIC0gTW9sZWN1bGFyIEJpb2NoZW1pc3RyeSBMYWIgICAgIChBKWRkAgIPDxYCHwAFBEZBMDhkZAIDDw8WAh8ABQIxNGRkAgQPZBYCAgEPDxYCHwAFAjExZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MC45JWRkAgcPZBYCAgEPDxYCHwAFBDYuMzJkZAIID2QWBAIBDw8WAh8ABRAzLjcyNzI3MjcyNzI3MjczZGQCAw8PFgIfAAUJQS0gKDMuNzMpZGQCCQ9kFgICAQ8PFgIfAGVkZAKMEA9kFhRmDw8WAh8ABSNDcm93bGV5LCBUaG9tYXMgRS4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyOTBkZAIDDw8WAh8ABQY2MzUwODZkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MzUwODYfAAUvQ0hFTSAxMTJBICAtIE1vbGVjdWxhciBCaW9jaGVtaXN0cnkgTGFiICAgICAoQilkZAICDw8WAh8ABQRGQTA4ZGQCAw8PFgIfAAUCMjZkZAIED2QWAgIBDw8WAh8ABQIxNmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4MS4zJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ny41JWRkAgcPZBYCAgEPDxYCHwAFBDYuNzVkZAIID2QWBAIBDw8WAh8ABQMzLjZkZAIDDw8WAh8ABQlCKyAoMy42MClkZAIJD2QWBAIBDw8WAh8ABQUzLjM4NWRkAgMPDxYCHwAFCUIrICgzLjM5KWRkAo0QD2QWFGYPDxYCHwAFHkplbm5pbmdzLCBQYXRyaWNpYSBBLiAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyOTBkZAIDDw8WAh8ABQY2MzUwODZkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MzUwODYfAAUvQ0hFTSAxMTJBICAtIE1vbGVjdWxhciBCaW9jaGVtaXN0cnkgTGFiICAgICAoQilkZAICDw8WAh8ABQRGQTA4ZGQCAw8PFgIfAAUCMjZkZAIED2QWAgIBDw8WAh8ABQIxNmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NC42JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ2Ljg4ZGQCCA9kFgQCAQ8PFgIfAAUDMy42ZGQCAw8PFgIfAAUJQisgKDMuNjApZGQCCQ9kFgQCAQ8PFgIfAAUFMy4zODVkZAIDDw8WAh8ABQlCKyAoMy4zOSlkZAKOEA9kFhRmDw8WAh8ABSNWaWFkaXUsIEhlY3RvciAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyOTBkZAIDDw8WAh8ABQY2MzA5NTdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MzA5NTcfAAUvQ0hFTSAxMTRBICAtIEJpb2NoZW1pY2FsIFN0cnVjdHVyZSZGdW5jdGlvbiAoQSlkZAICDw8WAh8ABQRGQTA4ZGQCAw8PFgIfAAUDMjIzZGQCBA9kFgICAQ8PFgIfAAUDMTQwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg3LjElZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg5LjklZGQCBw9kFgICAQ8PFgIfAAUENS44N2RkAggPZBYEAgEPDxYCHwAFEDMuNDY3NjI1ODk5MjgwNThkZAIDDw8WAh8ABQlCKyAoMy40NylkZAIJD2QWBAIBDw8WAh8ABQUzLjAzMmRkAgMPDxYCHwAFCEIgKDMuMDMpZGQCjxAPZBYUZg8PFgIfAAUjRG9ycmVzdGVpbiwgUGlldGVyICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjkwZGQCAw8PFgIfAAUGNjMwOTY2ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjMwOTY2HwAFLUNIRU0gMTE2IC0gRW56eW1lIENhdGFseXplZCBSZWFjdGlvbnMgICAgIChBKWRkAgIPDxYCHwAFBEZBMDhkZAIDDw8WAh8ABQIzNmRkAgQPZBYCAgEPDxYCHwAFAjI1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTY5LjYlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc4LjMlZGQCBw9kFgICAQ8PFgIfAAUENS4yMmRkAggPZBYEAgEPDxYCHwAFAzMuNmRkAgMPDxYCHwAFCUIrICgzLjYwKWRkAgkPZBYEAgEPDxYCHwAFBTMuMjgzZGQCAw8PFgIfAAUIQiAoMy4yOClkZAKQEA9kFhRmDw8WAh8ABR5Lb21pdmVzLCBFbGl6YWJldGggQSAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjkwZGQCAw8PFgIfAAUHNjMwOTY2QWRkAgUPDxYEHwUFLi4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYzMDk2NkEfAAUtQ0hFTSAxMTYgLSBFbnp5bWUgQ2F0YWx5emVkIFJlYWN0aW9ucyAgICAgKEEpZGQCAg8PFgIfAAUERkEwOGRkAgMPDxYCHwAFAjM2ZGQCBA9kFgICAQ8PFgIfAAUCMjJkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjMuNiVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODYuNCVkZAIHD2QWAgIBDw8WAh8ABQQ0LjYwZGQCCA9kFgQCAQ8PFgIfAAUDMy42ZGQCAw8PFgIfAAUJQisgKDMuNjApZGQCCQ9kFgQCAQ8PFgIfAAUFMy4yODNkZAIDDw8WAh8ABQhCICgzLjI4KWRkApEQD2QWFGYPDxYCHwAFI0hlbmRyaWNrc29uLCBEYXZpZCBOICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI5MGRkAgMPDxYCHwAFBjYzMDk3MGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYzMDk3MB8ABS9DSEVNIDEyMEEgIC0gSW5vcmdhbmljIENoZW1pc3RyeSBJICAgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMDhkZAIDDw8WAh8ABQMyMjhkZAIED2QWAgIBDw8WAh8ABQI5MGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4My4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Mi4wJWRkAgcPZBYCAgEPDxYCHwAFBDQuMzJkZAIID2QWBAIBDw8WAh8ABRAzLjU4MTM5NTM0ODgzNzIxZGQCAw8PFgIfAAUJQisgKDMuNTgpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4xNjNkZAIDDw8WAh8ABQhCICgzLjE2KWRkApIQD2QWFGYPDxYCHwAFI0Nyb3dlbGwsIEpvaG4gRSAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI5MGRkAgMPDxYCHwAFBjYzMDk3N2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYzMDk3Nx8ABS1DSEVNIDEyNiAtIFBoeXNpY2FsIENoZW1pc3RyeSAgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTA4ZGQCAw8PFgIfAAUDMTMwZGQCBA9kFgICAQ8PFgIfAAUCNzlkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzAuNSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTEuMCVkZAIHD2QWAgIBDw8WAh8ABQQ1Ljk3ZGQCCA9kFgQCAQ8PFgIfAAUQMy4xNDQ3MzY4NDIxMDUyNmRkAgMPDxYCHwAFCEIgKDMuMTQpZGQCCQ9kFgQCAQ8PFgIfAAUFMi41OTJkZAIDDw8WAh8ABQlDKyAoMi41OSlkZAKTEA9kFhRmDw8WAh8ABSNDcm93ZWxsLCBKb2huIEUgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyOTBkZAIDDw8WAh8ABQY2NDYwMzlkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02NDYwMzkfAAUtQ0hFTSAxMjYgLSBQaHlzaWNhbCBDaGVtaXN0cnkgICAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUERkEwOGRkAgMPDxYCHwAFAjM1ZGQCBA9kFgICAQ8PFgIfAAUCMTNkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFMzguNSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODQuNiVkZAIHD2QWAgIBDw8WAh8ABQQ2LjgxZGQCCA9kFgQCAQ8PFgIfAAUQMy4yMzA3NjkyMzA3NjkyM2RkAgMPDxYCHwAFCEIgKDMuMjMpZGQCCQ9kFgQCAQ8PFgIfAAUFMi41OTJkZAIDDw8WAh8ABQlDKyAoMi41OSlkZAKUEA9kFhRmDw8WAh8ABSNMaW5kZW5iZXJnLCBLYXRqYSAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyOTBkZAIDDw8WAh8ABQY2MzA5ODRkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MzA5ODQfAAUtQ0hFTSAxMzEgLSBQaHlzaWNhbCBDaGVtaXN0cnkgICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUERkEwOGRkAgMPDxYCHwAFAzEyMGRkAgQPZBYCAgEPDxYCHwAFAjUwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTU1LjElZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc5LjYlZGQCBw9kFgICAQ8PFgIfAAUEOC4zOGRkAggPZBYEAgEPDxYCHwAFEDIuOTU4MzMzMzMzMzMzMzNkZAIDDw8WAh8ABQlCLSAoMi45NilkZAIJD2QWBAIBDw8WAh8ABQUyLjQwNGRkAgMPDxYCHwAFCUMrICgyLjQwKWRkApUQD2QWFGYPDxYCHwAFI1Rlcm5hbnNreSwgUm9iZXJ0IEouICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI5MGRkAgMPDxYCHwAFBjYzMDk4OWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYzMDk4OR8ABS9DSEVNIDE0MEEgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSSAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMDhkZAIDDw8WAh8ABQMyMDFkZAIED2QWAgIBDw8WAh8ABQMyMTdkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzkuNSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTEuMiVkZAIHD2QWAgIBDw8WAh8ABQUxMC4xNGRkAggPZBYEAgEPDxYCHwAFATNkZAIDDw8WAh8ABQhCICgzLjAwKWRkAgkPZBYEAgEPDxYCHwAFBTIuNzA1ZGQCAw8PFgIfAAUJQi0gKDIuNzEpZGQClhAPZBYUZg8PFgIfAAUjV2hpdGVzZWxsLCBKYW1lcyBLLiAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjkwZGQCAw8PFgIfAAUGNjMxMDAwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjMxMDAwHwAFL0NIRU0gMTQwQSAgLSBPcmdhbmljIENoZW1pc3RyeSBJICAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUERkEwOGRkAgMPDxYCHwAFAzI3MGRkAgQPZBYCAgEPDxYCHwAFAjg0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTczLjUlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTQ4LjglZGQCBw9kFgICAQ8PFgIfAAUENi41N2RkAggPZBYEAgEPDxYCHwAFEDMuNDE0NjM0MTQ2MzQxNDZkZAIDDw8WAh8ABQlCKyAoMy40MSlkZAIJD2QWBAIBDw8WAh8ABQUyLjQ0NGRkAgMPDxYCHwAFCUMrICgyLjQ0KWRkApcQD2QWFGYPDxYCHwAFI0dsYXplciwgRWRpdGggQyAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI5MGRkAgMPDxYCHwAFBjYzMTAxMWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYzMTAxMR8ABS9DSEVNIDE0MEEgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSSAgICAgICAgICAgIChDKWRkAgIPDxYCHwAFBEZBMDhkZAIDDw8WAh8ABQMyMzZkZAIED2QWAgIBDw8WAh8ABQMxODRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODAuMSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODIuMyVkZAIHD2QWAgIBDw8WAh8ABQQ4LjcwZGQCCA9kFgQCAQ8PFgIfAAUQMi45ODI0NTYxNDAzNTA4OGRkAgMPDxYCHwAFCUItICgyLjk4KWRkAgkPZBYEAgEPDxYCHwAFBTIuNDg4ZGQCAw8PFgIfAAUJQysgKDIuNDkpZGQCmBAPZBYUZg8PFgIfAAUjQWxiaXphdGksIEtpbSBGLiAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjkwZGQCAw8PFgIfAAUGNjQ1OTAyZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjQ1OTAyHwAFL0NIRU0gMTQwQSAgLSBPcmdhbmljIENoZW1pc3RyeSBJICAgICAgICAgICAgKEQpZGQCAg8PFgIfAAUERkEwOGRkAgMPDxYCHwAFAzIwMWRkAgQPZBYCAgEPDxYCHwAFAzE1MGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MS4zJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5OS4zJWRkAgcPZBYCAgEPDxYCHwAFBDUuODZkZAIID2QWBAIBDw8WAh8ABRAzLjM3MzIzOTQzNjYxOTcyZGQCAw8PFgIfAAUJQisgKDMuMzcpZGQCCQ9kFgQCAQ8PFgIfAAUFMi43MTdkZAIDDw8WAh8ABQlCLSAoMi43MilkZAKZEA9kFhRmDw8WAh8ABSNLb2JheWFzaGksIFlvc2hpaGlzYSAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyOTBkZAIDDw8WAh8ABQY2MzEwMjJkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MzEwMjIfAAUvQ0hFTSAxNDBCICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IElJICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTA4ZGQCAw8PFgIfAAUDMjYyZGQCBA9kFgICAQ8PFgIfAAUCNzlkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzYuNiVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNDAuMyVkZAIHD2QWAgIBDw8WAh8ABQQ2LjYzZGQCCA9kFgQCAQ8PFgIfAAUQMy4yMjA3NzkyMjA3NzkyMmRkAgMPDxYCHwAFCEIgKDMuMjIpZGQCCQ9kFgQCAQ8PFgIfAAUQMi41NDY2OTI2MDcwMDM4OWRkAgMPDxYCHwAFCUMrICgyLjU1KWRkApoQD2QWFGYPDxYCHwAFI0hlcm1hbm4sIFRob21hcyAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI5MGRkAgMPDxYCHwAFBjYzMTAzM2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYzMTAzMx8ABS9DSEVNIDE0MEMgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSUlJICAgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMDhkZAIDDw8WAh8ABQMyOTdkZAIED2QWAgIBDw8WAh8ABQMyMDVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzUuOSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODIuMiVkZAIHD2QWAgIBDw8WAh8ABQQ2LjI4ZGQCCA9kFgQCAQ8PFgIfAAUQMy4yNDc0MjI2ODA0MTIzN2RkAgMPDxYCHwAFCEIgKDMuMjUpZGQCCQ9kFgQCAQ8PFgIfAAUFMi42ODRkZAIDDw8WAh8ABQlDKyAoMi42OClkZAKbEA9kFhRmDw8WAh8ABSNXZWl6bWFuLCBIYWltICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyOTBkZAIDDw8WAh8ABQY2MzEwNDRkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MzEwNDQfAAUvQ0hFTSAxNDNBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IExhYm9yYXRvcnkgICAoQSlkZAICDw8WAh8ABQRGQTA4ZGQCAw8PFgIfAAUDNDM3ZGQCBA9kFgICAQ8PFgIfAAUDMTk3ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg4LjklZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk2LjglZGQCBw9kFgICAQ8PFgIfAAUENi41NWRkAggPZBYEAgEPDxYCHwAFEDMuNDEwODEwODEwODEwODFkZAIDDw8WAh8ABQlCKyAoMy40MSlkZAIJD2QWBAIBDw8WAh8ABQUyLjk1MmRkAgMPDxYCHwAFCUItICgyLjk1KWRkApwQD2QWFGYPDxYCHwAFI1Rlcm5hbnNreSwgUm9iZXJ0IEouICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI5MGRkAgMPDxYCHwAFBjYzMTA2OGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYzMTA2OB8ABS9DSEVNIDE0M0MgIC0gT3JnYW5pYyBDaGVtaXN0cnkgTGFib3JhdG9yeSAgIChBKWRkAgIPDxYCHwAFBEZBMDhkZAIDDw8WAh8ABQMxMDlkZAIED2QWAgIBDw8WAh8ABQI5OGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ny42JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MC43JWRkAgcPZBYCAgEPDxYCHwAFBDcuNDFkZAIID2QWBAIBDw8WAh8ABQQzLjI1ZGQCAw8PFgIfAAUIQiAoMy4yNSlkZAIJD2QWBAIBDw8WAh8ABQUzLjI5NGRkAgMPDxYCHwAFCEIgKDMuMjkpZGQCnRAPZBYUZg8PFgIfAAUjUHJhdGhlciwgS2ltYmVybHkgQSAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjkwZGQCAw8PFgIfAAUGNjMxMDc0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjMxMDc0HwAFL0NIRU0gMTQ5QSAgLSBFbnZpcm9ubWVudGFsIENoZW1pc3RyeSAgICAgICAgKEEpZGQCAg8PFgIfAAUERkEwOGRkAgMPDxYCHwAFAjYwZGQCBA9kFgICAQ8PFgIfAAUCNDVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTcuNyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTUuNSVkZAIHD2QWAgIBDw8WAh8ABQQ0Ljk0ZGQCCA9kFgQCAQ8PFgIfAAUQMy40MTg2MDQ2NTExNjI3OWRkAgMPDxYCHwAFCUIrICgzLjQyKWRkAgkPZBYEAgEPDxYCHwAFBTIuNTEyZGQCAw8PFgIfAAUJQysgKDIuNTEpZGQCnhAPZBYUZg8PFgIfAAUjS29iYXlhc2hpLCBZb3NoaWhpc2EgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjkwZGQCAw8PFgIfAAUGNjMxMDc3ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjMxMDc3HwAFLUNIRU0gMTUyIC0gU3ludGhldGljIE1ldGhvZHMvT3JnYW5pYyBDaGVtIChBKWRkAgIPDxYCHwAFBEZBMDhkZAIDDw8WAh8ABQIxN2RkAgQPZBYCAgEPDxYCHwAFAjE5ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg0LjIlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg0LjIlZGQCBw9kFgICAQ8PFgIfAAUENS42MWRkAggPZBYEAgEPDxYCHwAFEDMuMzY4NDIxMDUyNjMxNThkZAIDDw8WAh8ABQlCKyAoMy4zNylkZAIJD2QWAgIBDw8WAh8AZWRkAp8QD2QWFGYPDxYCHwAFI1RoZW9kb3Jha2lzLCBFbW1hbm91aWwgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI5MGRkAgMPDxYCHwAFBjYzMTA3N2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYzMTA3Nx8ABS1DSEVNIDE1MiAtIFN5bnRoZXRpYyBNZXRob2RzL09yZ2FuaWMgQ2hlbSAoQSlkZAICDw8WAh8ABQRGQTA4ZGQCAw8PFgIfAAUCMTdkZAIED2QWAgIBDw8WAh8ABQIxOWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NC4yJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NC4yJWRkAgcPZBYCAgEPDxYCHwAFBDUuNjFkZAIID2QWBAIBDw8WAh8ABRAzLjM2ODQyMTA1MjYzMTU4ZGQCAw8PFgIfAAUJQisgKDMuMzcpZGQCCQ9kFgICAQ8PFgIfAGVkZAKgEA9kFhRmDw8WAh8ABSNUb3IsIFlpdHpoYWsgICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyOTBkZAIDDw8WAh8ABQY2MzEwNzhkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MzEwNzgfAAUtQ0hFTSAxNTQgLSBNZWNoYW5pc21zL09yZ2FuaWMgUmVhY3Rpb25zICAgKEEpZGQCAg8PFgIfAAUERkEwOGRkAgMPDxYCHwAFAjM2ZGQCBA9kFgICAQ8PFgIfAAUCNDBkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTIuNSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTUuMCVkZAIHD2QWAgIBDw8WAh8ABQQ2LjA1ZGQCCA9kFgQCAQ8PFgIfAAUQMy4zNjg0MjEwNTI2MzE1OGRkAgMPDxYCHwAFCUIrICgzLjM3KWRkAgkPZBYEAgEPDxYCHwAFBTMuNTI5ZGQCAw8PFgIfAAUJQisgKDMuNTMpZGQCoRAPZBYUZg8PFgIfAAUjUHJhdGhlciwgS2ltYmVybHkgQSAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjkwZGQCAw8PFgIfAAUGNjMxMDc0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjMxMDc0HwAFLUNIRU0gMTcxIC0gRW52aXJvbm1lbnRhbCBDaGVtaXN0cnkgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMDhkZAIDDw8WAh8ABQI2MGRkAgQPZBYCAgEPDxYCHwAFAjQ1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk3LjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk1LjUlZGQCBw9kFgICAQ8PFgIfAAUENC45NGRkAggPZBYEAgEPDxYCHwAFEDMuNDE4NjA0NjUxMTYyNzlkZAIDDw8WAh8ABQlCKyAoMy40MilkZAIJD2QWBAIBDw8WAh8ABQUyLjUxMmRkAgMPDxYCHwAFCUMrICgyLjUxKWRkAqIQD2QWFGYPDxYCHwAFI1dlaXptYW4sIEhhaW0gICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI5MGRkAgMPDxYCHwAFBjY0NjEwM2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTY0NjEwMx8ABS1DSEVNIDE5MiAtIFNyIFNlbWluYXIgaW4gQ2hlbSAmIEJpb2NoZW0gICAoQSlkZAICDw8WAh8ABQRGQTA4ZGQCAw8PFgIfAAUCMThkZAIED2QWAgIBDw8WAh8ABQIxM2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUEMS4xMmRkAggPZBYCAgEPDxYCHwBlZGQCCQ9kFgICAQ8PFgIfAGVkZAKjEA9kFhRmDw8WAh8ABSNIb2VnZXIsIENhcmwgICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyOTBkZAIDDw8WAh8ABQY2MzA4MDJkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MzA4MDIfAAUrQ0hFTSA0IC0gQmFzaWMgQ2hlbWlzdHJ5ICAgICAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMDhkZAIDDw8WAh8ABQMyMzhkZAIED2QWAgIBDw8WAh8ABQMxODNkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTYuMSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTguOSVkZAIHD2QWAgIBDw8WAh8ABQQ1Ljc2ZGQCCA9kFgQCAQ8PFgIfAAUQMi45NzcyNzI3MjcyNzI3M2RkAgMPDxYCHwAFCUItICgyLjk4KWRkAgkPZBYEAgEPDxYCHwAFBTIuODkxZGQCAw8PFgIfAAUJQi0gKDIuODkpZGQCpBAPZBYUZg8PFgIfAAUjYnJ5ZGdlcywgc3RhY2V5ICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjkwZGQCAw8PFgIfAAUGNjMwODE1ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjMwODE1HwAFLUNIRU0gNkEgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSSAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMDhkZAIDDw8WAh8ABQMzMjNkZAIED2QWAgIBDw8WAh8ABQMyNDdkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODYuOSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzYuNiVkZAIHD2QWAgIBDw8WAh8ABQQ2Ljk3ZGQCCA9kFgQCAQ8PFgIfAAUQMi44Mzg5ODMwNTA4NDc0NmRkAgMPDxYCHwAFCUItICgyLjg0KWRkAgkPZBYEAgEPDxYCHwAFBTIuNDg4ZGQCAw8PFgIfAAUJQysgKDIuNDkpZGQCpRAPZBYUZg8PFgIfAAUjQ3p3b3Jrb3dza2ksIEpvaG4gICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjkwZGQCAw8PFgIfAAUGNjMwODI2ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjMwODI2HwAFLUNIRU0gNkEgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSSAgICAgICAgICAgIChCKWRkAgIPDxYCHwAFBEZBMDhkZAIDDw8WAh8ABQMzMjdkZAIED2QWAgIBDw8WAh8ABQMyNzNkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODEuOCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNTkuMCVkZAIHD2QWAgIBDw8WAh8ABQQ2LjE1ZGQCCA9kFgQCAQ8PFgIfAAUQMy4xNDgyODg5NzMzODQwM2RkAgMPDxYCHwAFCEIgKDMuMTUpZGQCCQ9kFgQCAQ8PFgIfAAUFMi41MzdkZAIDDw8WAh8ABQlDKyAoMi41NClkZAKmEA9kFhRmDw8WAh8ABSNDendvcmtvd3NraSwgSm9obiAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyOTBkZAIDDw8WAh8ABQY2MzA4MzdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MzA4MzcfAAUtQ0hFTSA2QSAgLSBHZW5lcmFsIENoZW1pc3RyeSBJICAgICAgICAgICAgKEMpZGQCAg8PFgIfAAUERkEwOGRkAgMPDxYCHwAFAzI5OGRkAgQPZBYCAgEPDxYCHwAFAzIyMWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3NS41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU2MS44JWRkAgcPZBYCAgEPDxYCHwAFBDYuMjdkZAIID2QWBAIBDw8WAh8ABRAzLjA3NjkyMzA3NjkyMzA4ZGQCAw8PFgIfAAUIQiAoMy4wOClkZAIJD2QWBAIBDw8WAh8ABQUyLjUzN2RkAgMPDxYCHwAFCUMrICgyLjU0KWRkAqcQD2QWFGYPDxYCHwAFI0pvaG5zb24sIENocmlzdGluYSBBICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI5MGRkAgMPDxYCHwAFBjYzMDg0OGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYzMDg0OB8ABS1DSEVNIDZBICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoRClkZAICDw8WAh8ABQRGQTA4ZGQCAw8PFgIfAAUDMzM2ZGQCBA9kFgICAQ8PFgIfAAUDMjE0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkxLjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk4LjYlZGQCBw9kFgICAQ8PFgIfAAUENi4yMmRkAggPZBYEAgEPDxYCHwAFEDMuMTUzODQ2MTUzODQ2MTVkZAIDDw8WAh8ABQhCICgzLjE1KWRkAgkPZBYEAgEPDxYCHwAFBTIuODUyZGQCAw8PFgIfAAUJQi0gKDIuODUpZGQCqBAPZBYUZg8PFgIfAAUjYnJ5ZGdlcywgc3RhY2V5ICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjkwZGQCAw8PFgIfAAUGNjMwODU5ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjMwODU5HwAFLUNIRU0gNkEgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSSAgICAgICAgICAgIChFKWRkAgIPDxYCHwAFBEZBMDhkZAIDDw8WAh8ABQMzMTZkZAIED2QWAgIBDw8WAh8ABQMyNTNkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODEuMiVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzMuMiVkZAIHD2QWAgIBDw8WAh8ABQQ2LjA2ZGQCCA9kFgQCAQ8PFgIfAAUQMi45ODc2NTQzMjA5ODc2NWRkAgMPDxYCHwAFCUItICgyLjk5KWRkAgkPZBYEAgEPDxYCHwAFBTIuNDg4ZGQCAw8PFgIfAAUJQysgKDIuNDkpZGQCqRAPZBYUZg8PFgIfAAUjSG9lZ2VyLCBDYXJsICAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjkwZGQCAw8PFgIfAAUGNjMwODcwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjMwODcwHwAFLUNIRU0gNkFIIC0gSG9ub3JzIEdlbmVyYWwgQ2hlbWlzdHJ5IEkgICAgIChBKWRkAgIPDxYCHwAFBEZBMDhkZAIDDw8WAh8ABQMxMTdkZAIED2QWAgIBDw8WAh8ABQI5N2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3NS4zJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NC42JWRkAgcPZBYCAgEPDxYCHwAFBDYuNDBkZAIID2QWBAIBDw8WAh8ABRAzLjEwNDE2NjY2NjY2NjY3ZGQCAw8PFgIfAAUIQiAoMy4xMClkZAIJD2QWBAIBDw8WAh8ABQUzLjA2OGRkAgMPDxYCHwAFCEIgKDMuMDcpZGQCqhAPZBYUZg8PFgIfAAUjS2ltLCBKdWR5IEUuICAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjkwZGQCAw8PFgIfAAUGNjMwODc2ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjMwODc2HwAFLUNIRU0gNkIgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSUkgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMDhkZAIDDw8WAh8ABQMyMzlkZAIED2QWAgIBDw8WAh8ABQMxNjJkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjIuOSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFMzcuNyVkZAIHD2QWAgIBDw8WAh8ABQQ3LjU1ZGQCCA9kFgQCAQ8PFgIfAAUQMi44OTMzMzMzMzMzMzMzM2RkAgMPDxYCHwAFCUItICgyLjg5KWRkAgkPZBYEAgEPDxYCHwAFBTIuNjI5ZGQCAw8PFgIfAAUJQysgKDIuNjMpZGQCqxAPZBYUZg8PFgIfAAUjQmVybmlvbGxlcywgU2FuZHJpbmUgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjkwZGQCAw8PFgIfAAUGNjMwODg3ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjMwODg3HwAFLUNIRU0gNkJMIC0gSW50ciBJbm9yZ2FuaWMgQ2hlbSBMYWJvcmF0b3J5IChBKWRkAgIPDxYCHwAFBEZBMDhkZAIDDw8WAh8ABQMyNDVkZAIED2QWAgIBDw8WAh8ABQIyOWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3Mi40JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ni4yJWRkAgcPZBYCAgEPDxYCHwAFBDkuMTlkZAIID2QWBAIBDw8WAh8ABRAzLjI4NTcxNDI4NTcxNDI5ZGQCAw8PFgIfAAUIQiAoMy4yOSlkZAIJD2QWBAIBDw8WAh8ABQUyLjk4N2RkAgMPDxYCHwAFCUItICgyLjk5KWRkAqwQD2QWFGYPDxYCHwAFI0Jlcm5pb2xsZXMsIFNhbmRyaW5lICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI5MGRkAgMPDxYCHwAFBjYzMDkwMmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYzMDkwMh8ABS1DSEVNIDZCTCAtIEludHIgSW5vcmdhbmljIENoZW0gTGFib3JhdG9yeSAoQilkZAICDw8WAh8ABQRGQTA4ZGQCAw8PFgIfAAUDMjQ4ZGQCBA9kFgICAQ8PFgIfAAUCODZkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNTkuOCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODYuNiVkZAIHD2QWAgIBDw8WAh8ABQUxMC41OWRkAggPZBYEAgEPDxYCHwAFEDMuMTgyOTI2ODI5MjY4MjlkZAIDDw8WAh8ABQhCICgzLjE4KWRkAgkPZBYEAgEPDxYCHwAFBTIuOTg3ZGQCAw8PFgIfAAUJQi0gKDIuOTkpZGQCrRAPZBYUZg8PFgIfAAUjSm9obnNvbiwgQ2hyaXN0aW5hIEEgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjkwZGQCAw8PFgIfAAUGNjMwOTE1ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjMwOTE1HwAFLUNIRU0gNkMgIC0gR2VuZXJhbCBDaGVtaXN0cnkgIElJSSAgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMDhkZAIDDw8WAh8ABQMzNDBkZAIED2QWAgIBDw8WAh8ABQMyOTNkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTAuOSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTguNiVkZAIHD2QWAgIBDw8WAh8ABQQ1LjY2ZGQCCA9kFgQCAQ8PFgIfAAUQMy4yMjc3NTgwMDcxMTc0NGRkAgMPDxYCHwAFCEIgKDMuMjMpZGQCCQ9kFgQCAQ8PFgIfAAUFMi44NTlkZAIDDw8WAh8ABQlCLSAoMi44NilkZAKuEA9kFhRmDw8WAh8ABSNUcm9nbGVyLCBXaWxsaWFtIEMgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyOTBkZAIDDw8WAh8ABQY2MzA5MjZkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MzA5MjYfAAUtQ0hFTSA2QyAgLSBHZW5lcmFsIENoZW1pc3RyeSAgSUlJICAgICAgICAgKEIpZGQCAg8PFgIfAAUERkEwOGRkAgMPDxYCHwAFAzEyMGRkAgQPZBYCAgEPDxYCHwAFAjQxZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg1LjAlZGQCBw9kFgICAQ8PFgIfAAUENC41NWRkAggPZBYEAgEPDxYCHwAFEDMuMTI4MjA1MTI4MjA1MTNkZAIDDw8WAh8ABQhCICgzLjEzKWRkAgkPZBYEAgEPDxYCHwAFBTIuODE5ZGQCAw8PFgIfAAUJQi0gKDIuODIpZGQCrxAPZBYUZg8PFgIfAAUjQ3p3b3Jrb3dza2ksIEpvaG4gICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjkwZGQCAw8PFgIfAAUGNjM2NzIyZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjM2NzIyHwAFLENIRU0gODcgLSBGcmVzaG1hbiBTZW1pbmFyICAgICAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUERkEwOGRkAgMPDxYCHwAFAjE2ZGQCBA9kFgICAQ8PFgIfAAUCMThkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODguOSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTQuNCVkZAIHD2QWAgIBDw8WAh8ABQQwLjgzZGQCCA9kFgQCAQ8PFgIfAAUBNGRkAgMPDxYCHwAFCEEgKDQuMDApZGQCCQ9kFgICAQ8PFgIfAGVkZAKwEA9kFhRmDw8WAh8ABSNCYWxsLCBJYW4gSmFtZXMgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyODBkZAIDDw8WAh8ABQY2MjYzMDhkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MjYzMDgfAAUvQ0hFTSAxMDBBICAtIEFuYWx5dGljYWwgQ2hlbSBMYWIgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRTVTA4ZGQCAw8PFgIfAAUCMTlkZAIED2QWAgIBDw8WAh8ABQIxNmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU1MC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU1Ni4zJWRkAgcPZBYCAgEPDxYCHwAFBTEyLjUwZGQCCA9kFgQCAQ8PFgIfAAUQMy4wNjY2NjY2NjY2NjY2N2RkAgMPDxYCHwAFCEIgKDMuMDcpZGQCCQ9kFgICAQ8PFgIfAGVkZAKxEA9kFhRmDw8WAh8ABSNPY29ubm9yLCBKb3NlcGggTS4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyODBkZAIDDw8WAh8ABQY2MjYzMTBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MjYzMTAfAAUvQ0hFTSAxNDBBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRTVTA4ZGQCAw8PFgIfAAUDMTY3ZGQCBA9kFgICAQ8PFgIfAAUDMTEwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg1LjUlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk5LjElZGQCBw9kFgICAQ8PFgIfAAUFMTAuNTRkZAIID2QWBAIBDw8WAh8ABRAzLjQ4MDM5MjE1Njg2Mjc1ZGQCAw8PFgIfAAUJQisgKDMuNDgpZGQCCQ9kFgICAQ8PFgIfAGVkZAKyEA9kFhRmDw8WAh8ABSNUZXJuYW5za3ksIFJvYmVydCBKLiAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyODBkZAIDDw8WAh8ABQY2MjY2MDhkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MjY2MDgfAAUvQ0hFTSAxNDBBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRTVTA4ZGQCAw8PFgIfAAUCNTJkZAIED2QWAgIBDw8WAh8ABQIzNmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4MC42JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Ny4yJWRkAgcPZBYCAgEPDxYCHwAFBTE1LjI4ZGQCCA9kFgQCAQ8PFgIfAAUQMi44MTgxODE4MTgxODE4MmRkAgMPDxYCHwAFCUItICgyLjgyKWRkAgkPZBYCAgEPDxYCHwBlZGQCsxAPZBYUZg8PFgIfAAUjT2Nvbm5vciwgSm9zZXBoIE0uICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjgwZGQCAw8PFgIfAAUGNjI2NjEwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjI2NjEwHwAFL0NIRU0gMTQwQiAgLSBPcmdhbmljIENoZW1pc3RyeSBJSSAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1UwOGRkAgMPDxYCHwAFAzI3OGRkAgQPZBYCAgEPDxYCHwAFAzE3OWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4My42JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Ni42JWRkAgcPZBYCAgEPDxYCHwAFBTEwLjI2ZGQCCA9kFgQCAQ8PFgIfAAUQMy4xNzQ0MTg2MDQ2NTExNmRkAgMPDxYCHwAFCEIgKDMuMTcpZGQCCQ9kFgICAQ8PFgIfAGVkZAK0EA9kFhRmDw8WAh8ABSNXZWl6bWFuLCBIYWltICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyODBkZAIDDw8WAh8ABQY2MjYzMTJkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MjYzMTIfAAUvQ0hFTSAxNDNBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IExhYm9yYXRvcnkgICAoQSlkZAICDw8WAh8ABQRTVTA4ZGQCAw8PFgIfAAUCNzhkZAIED2QWAgIBDw8WAh8ABQI2OGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Mi40JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5My44JWRkAgcPZBYCAgEPDxYCHwAFBTEwLjk2ZGQCCA9kFgQCAQ8PFgIfAAUQMy4yNjIyOTUwODE5NjcyMWRkAgMPDxYCHwAFCEIgKDMuMjYpZGQCCQ9kFgICAQ8PFgIfAGVkZAK1EA9kFhRmDw8WAh8ABSNUZXJuYW5za3ksIFJvYmVydCBKLiAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyODBkZAIDDw8WAh8ABQY2MjYzMTZkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MjYzMTYfAAUvQ0hFTSAxNDNCICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IExhYm9yYXRvcnkgICAoQSlkZAICDw8WAh8ABQRTVTA4ZGQCAw8PFgIfAAUCMjBkZAIED2QWAgIBDw8WAh8ABQIxOWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTQuNyVkZAIHD2QWAgIBDw8WAh8ABQQ3Ljk3ZGQCCA9kFgQCAQ8PFgIfAAUQMi44ODg4ODg4ODg4ODg4OWRkAgMPDxYCHwAFCUItICgyLjg5KWRkAgkPZBYCAgEPDxYCHwBlZGQCthAPZBYUZg8PFgIfAAUjSG9lZ2VyLCBDYXJsICAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjgwZGQCAw8PFgIfAAUGNjI2MzE4ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjI2MzE4HwAFLUNIRU0gNkEgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSSAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNVMDhkZAIDDw8WAh8ABQI2NmRkAgQPZBYCAgEPDxYCHwAFAjM1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkxLjQlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk3LjElZGQCBw9kFgICAQ8PFgIfAAUEOS4xNWRkAggPZBYEAgEPDxYCHwAFEDMuMjk0MTE3NjQ3MDU4ODJkZAIDDw8WAh8ABQhCICgzLjI5KWRkAgkPZBYCAgEPDxYCHwBlZGQCtxAPZBYUZg8PFgIfAAUjUG9tZXJveSwgUm9iZXJ0IFMuICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjgwZGQCAw8PFgIfAAUGNjI2NjEyZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjI2NjEyHwAFLUNIRU0gNkEgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSSAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNVMDhkZAIDDw8WAh8ABQIyMWRkAgQPZBYCAgEPDxYCHwAFAjEyZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MS43JWRkAgcPZBYCAgEPDxYCHwAFBDcuMTdkZAIID2QWBAIBDw8WAh8ABRAzLjM2MzYzNjM2MzYzNjM2ZGQCAw8PFgIfAAUJQisgKDMuMzYpZGQCCQ9kFgICAQ8PFgIfAGVkZAK4EA9kFhRmDw8WAh8ABSNCYWxsLCBJYW4gSmFtZXMgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyODBkZAIDDw8WAh8ABQY2MjYzMjBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MjYzMjAfAAUtQ0hFTSA2QiAgLSBHZW5lcmFsIENoZW1pc3RyeSBJSSAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1UwOGRkAgMPDxYCHwAFAjU2ZGQCBA9kFgICAQ8PFgIfAAUCNDRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODIuNSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTUuMCVkZAIHD2QWAgIBDw8WAh8ABQQ4Ljc0ZGQCCA9kFgQCAQ8PFgIfAAUQMi45NzY3NDQxODYwNDY1MWRkAgMPDxYCHwAFCUItICgyLjk4KWRkAgkPZBYCAgEPDxYCHwBlZGQCuRAPZBYUZg8PFgIfAAUjUG9tZXJveSwgUm9iZXJ0IFMuICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjgwZGQCAw8PFgIfAAUGNjI2NjE0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjI2NjE0HwAFLUNIRU0gNkIgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSUkgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNVMDhkZAIDDw8WAh8ABQI0NWRkAgQPZBYCAgEPDxYCHwAFAjM4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg0LjIlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc2LjMlZGQCBw9kFgICAQ8PFgIfAAUEOC44MmRkAggPZBYEAgEPDxYCHwAFEDIuODYxMTExMTExMTExMTFkZAIDDw8WAh8ABQlCLSAoMi44NilkZAIJD2QWAgIBDw8WAh8AZWRkAroQD2QWFGYPDxYCHwAFI0Jlcm5pb2xsZXMsIFNhbmRyaW5lICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI4MGRkAgMPDxYCHwAFBjYyNjMyMmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYyNjMyMh8ABS1DSEVNIDZCTCAtIEludHIgSW5vcmdhbmljIENoZW0gTGFib3JhdG9yeSAoQSlkZAICDw8WAh8ABQRTVTA4ZGQCAw8PFgIfAAUDMTI0ZGQCBA9kFgICAQ8PFgIfAAUCNjNkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzQuNiVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTAuNSVkZAIHD2QWAgIBDw8WAh8ABQUxMS42MGRkAggPZBYEAgEPDxYCHwAFEDMuMzExNDc1NDA5ODM2MDdkZAIDDw8WAh8ABQlCKyAoMy4zMSlkZAIJD2QWAgIBDw8WAh8AZWRkArsQD2QWFGYPDxYCHwAFI0hvZWdlciwgQ2FybCAgICAgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI4MGRkAgMPDxYCHwAFBjYyNjMyNWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYyNjMyNR8ABS1DSEVNIDZDICAtIEdlbmVyYWwgQ2hlbWlzdHJ5ICBJSUkgICAgICAgICAoQSlkZAICDw8WAh8ABQRTVTA4ZGQCAw8PFgIfAAUCOTZkZAIED2QWAgIBDw8WAh8ABQI1OGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4OS41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5OC4yJWRkAgcPZBYCAgEPDxYCHwAFBDguNzRkZAIID2QWBAIBDw8WAh8ABQMzLjRkZAIDDw8WAh8ABQlCKyAoMy40MClkZAIJD2QWAgIBDw8WAh8AZWRkArwQD2QWFGYPDxYCHwAFI0pvaG5zb24sIENocmlzdGluYSBBICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI4MGRkAgMPDxYCHwAFBjYyNjYxNWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYyNjYxNR8ABS1DSEVNIDZDICAtIEdlbmVyYWwgQ2hlbWlzdHJ5ICBJSUkgICAgICAgICAoQSlkZAICDw8WAh8ABQRTVTA4ZGQCAw8PFgIfAAUCOTJkZAIED2QWAgIBDw8WAh8ABQI3N2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NS41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NC43JWRkAgcPZBYCAgEPDxYCHwAFBDcuMTBkZAIID2QWBAIBDw8WAh8ABRAzLjI5NTc3NDY0Nzg4NzMyZGQCAw8PFgIfAAUIQiAoMy4zMClkZAIJD2QWAgIBDw8WAh8AZWRkAr0QD2QWFGYPDxYCHwAFHkZlbmcsIERhIEZlaSAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyNDBkZAIDDw8WAh8ABQY2MjE3NjhkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MjE3NjgfAAUvQ0hFTSAxMDBBICAtIEFuYWx5dGljYWwgQ2hlbSBMYWIgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRTUDA4ZGQCAw8PFgIfAAUCODVkZAIED2QWAgIBDw8WAh8ABQI3MmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3MS40JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NC4zJWRkAgcPZBYCAgEPDxYCHwAFBTEwLjI4ZGQCCA9kFgQCAQ8PFgIfAAUQMy41MDcyNDYzNzY4MTE1OWRkAgMPDxYCHwAFCUIrICgzLjUxKWRkAgkPZBYEAgEPDxYCHwAFBTIuOTg0ZGQCAw8PFgIfAAUJQi0gKDIuOTgpZGQCvhAPZBYUZg8PFgIfAAUeTWFnZGUsIERvdWdsYXMgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI0MGRkAgMPDxYCHwAFBjYyMTc3N2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYyMTc3Nx8ABS9DSEVNIDEwNUEgIC0gUGh5c2ljYWwgQ2hlbWlzdHJ5IExhYm9yYXRvcnkgIChBKWRkAgIPDxYCHwAFBFNQMDhkZAIDDw8WAh8ABQI1NmRkAgQPZBYCAgEPDxYCHwAFAjM0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc4LjElZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk2LjklZGQCBw9kFgICAQ8PFgIfAAUEOS4xMWRkAggPZBYEAgEPDxYCHwAFEDMuMjkwMzIyNTgwNjQ1MTZkZAIDDw8WAh8ABQhCICgzLjI5KWRkAgkPZBYEAgEPDxYCHwAFATNkZAIDDw8WAh8ABQhCICgzLjAwKWRkAr8QD2QWFGYPDxYCHwAFI0Nyb3dsZXksIFRob21hcyBFLiAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI0MGRkAgMPDxYCHwAFBjYyMTc4MGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYyMTc4MB8ABS1DSEVNIDEwOSAtIE1vbGVjdWxhciBCaW9jaGVtaXN0cnkgTGFiICAgICAoQSlkZAICDw8WAh8ABQRTUDA4ZGQCAw8PFgIfAAUCMjlkZAIED2QWAgIBDw8WAh8ABQIxOWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4OC45JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4My4zJWRkAgcPZBYCAgEPDxYCHwAFBDguNjFkZAIID2QWBAIBDw8WAh8ABRAzLjMzMzMzMzMzMzMzMzMzZGQCAw8PFgIfAAUJQisgKDMuMzMpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4zNzdkZAIDDw8WAh8ABQlCKyAoMy4zOClkZALAEA9kFhRmDw8WAh8ABSNDcm93bGV5LCBUaG9tYXMgRS4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyNDBkZAIDDw8WAh8ABQY2MjUwNzhkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MjUwNzgfAAUtQ0hFTSAxMDkgLSBNb2xlY3VsYXIgQmlvY2hlbWlzdHJ5IExhYiAgICAgKEIpZGQCAg8PFgIfAAUEU1AwOGRkAgMPDxYCHwAFAjI0ZGQCBA9kFgICAQ8PFgIfAAUCMTlkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzMuNyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFMzYuOCVkZAIHD2QWAgIBDw8WAh8ABQQ4Ljk0ZGQCCA9kFgQCAQ8PFgIfAAUQMi43ODk0NzM2ODQyMTA1M2RkAgMPDxYCHwAFCUItICgyLjc5KWRkAgkPZBYEAgEPDxYCHwAFBTMuMzc3ZGQCAw8PFgIfAAUJQisgKDMuMzgpZGQCwRAPZBYUZg8PFgIfAAUjQ3Jvd2xleSwgVGhvbWFzIEUuICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjQwZGQCAw8PFgIfAAUGNjIxNzgwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjIxNzgwHwAFL0NIRU0gMTEyQiAgLSBNb2xlY3VsYXIgQmlvY2hlbWlzdHJ5IExhYiAgICAgKEEpZGQCAg8PFgIfAAUEU1AwOGRkAgMPDxYCHwAFAjI5ZGQCBA9kFgICAQ8PFgIfAAUCMTlkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODguOSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODMuMyVkZAIHD2QWAgIBDw8WAh8ABQQ4LjYxZGQCCA9kFgQCAQ8PFgIfAAUQMy4zMzMzMzMzMzMzMzMzM2RkAgMPDxYCHwAFCUIrICgzLjMzKWRkAgkPZBYEAgEPDxYCHwAFBTMuMzc3ZGQCAw8PFgIfAAUJQisgKDMuMzgpZGQCwhAPZBYUZg8PFgIfAAUjQ3Jvd2xleSwgVGhvbWFzIEUuICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjQwZGQCAw8PFgIfAAUGNjI1MDc4ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjI1MDc4HwAFL0NIRU0gMTEyQiAgLSBNb2xlY3VsYXIgQmlvY2hlbWlzdHJ5IExhYiAgICAgKEIpZGQCAg8PFgIfAAUEU1AwOGRkAgMPDxYCHwAFAjI0ZGQCBA9kFgICAQ8PFgIfAAUCMTlkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzMuNyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFMzYuOCVkZAIHD2QWAgIBDw8WAh8ABQQ4Ljk0ZGQCCA9kFgQCAQ8PFgIfAAUQMi43ODk0NzM2ODQyMTA1M2RkAgMPDxYCHwAFCUItICgyLjc5KWRkAgkPZBYEAgEPDxYCHwAFBTMuMzc3ZGQCAw8PFgIfAAUJQisgKDMuMzgpZGQCwxAPZBYUZg8PFgIfAAUeSG9mZm1hbm4sIEFsZXhhbmRlciAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI0MGRkAgMPDxYCHwAFBjYyMTc4M2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYyMTc4Mx8ABS9DSEVNIDExNEMgIC0gQmlvc3ludGhlc2lzIG9mIE1hY3JvbW9sZWN1bGVzIChBKWRkAgIPDxYCHwAFBFNQMDhkZAIDDw8WAh8ABQMxODBkZAIED2QWAgIBDw8WAh8ABQI0NGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ni4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NS4zJWRkAgcPZBYCAgEPDxYCHwAFBDUuNjRkZAIID2QWBAIBDw8WAh8ABQUzLjM3NWRkAgMPDxYCHwAFCUIrICgzLjM4KWRkAgkPZBYEAgEPDxYCHwAFBTIuNzIxZGQCAw8PFgIfAAUJQi0gKDIuNzIpZGQCxBAPZBYUZg8PFgIfAAUjRG9ycmVzdGVpbiwgUGlldGVyICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjQwZGQCAw8PFgIfAAUGNjI1NzczZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjI1NzczHwAFLUNIRU0gMTE2IC0gRW56eW1lIENhdGFseXplZCBSZWFjdGlvbnMgICAgIChBKWRkAgIPDxYCHwAFBFNQMDhkZAIDDw8WAh8ABQI1M2RkAgQPZBYCAgEPDxYCHwAFAjI5ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkyLjklZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgyLjElZGQCBw9kFgICAQ8PFgIfAAUENi43MWRkAggPZBYEAgEPDxYCHwAFEDMuMzkyODU3MTQyODU3MTRkZAIDDw8WAh8ABQlCKyAoMy4zOSlkZAIJD2QWBAIBDw8WAh8ABQUzLjA5NmRkAgMPDxYCHwAFCEIgKDMuMTApZGQCxRAPZBYUZg8PFgIfAAUeS29taXZlcywgRWxpemFiZXRoIEEgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI0MGRkAgMPDxYCHwAFBjYyNTc3M2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYyNTc3Mx8ABS1DSEVNIDExNiAtIEVuenltZSBDYXRhbHl6ZWQgUmVhY3Rpb25zICAgICAoQSlkZAICDw8WAh8ABQRTUDA4ZGQCAw8PFgIfAAUCNTNkZAIED2QWAgIBDw8WAh8ABQIzM2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ny41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ2LjQ0ZGQCCA9kFgQCAQ8PFgIfAAUQMy4zOTI4NTcxNDI4NTcxNGRkAgMPDxYCHwAFCUIrICgzLjM5KWRkAgkPZBYEAgEPDxYCHwAFBTMuMDk2ZGQCAw8PFgIfAAUIQiAoMy4xMClkZALGEA9kFhRmDw8WAh8ABR5UdWtleSwgUm9iZXJ0IEggICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjQwZGQCAw8PFgIfAAUGNjIxNzkxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjIxNzkxHwAFLUNIRU0gMTE4IC0gUGhhcm1hY29sb2d5IGFuZCBUb3hpY29sb2d5ICAgIChBKWRkAgIPDxYCHwAFBFNQMDhkZAIDDw8WAh8ABQMxMDhkZAIED2QWAgIBDw8WAh8ABQI3MmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5My4xJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5My4xJWRkAgcPZBYCAgEPDxYCHwAFBDUuNTNkZAIID2QWBAIBDw8WAh8ABRAzLjMzODAyODE2OTAxNDA4ZGQCAw8PFgIfAAUJQisgKDMuMzQpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4wOTRkZAIDDw8WAh8ABQhCICgzLjA5KWRkAscQD2QWFGYPDxYCHwAFHkNvaGVuLCBTZXRoIE0gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyNDBkZAIDDw8WAh8ABQY2MjE3OTVkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MjE3OTUfAAUtQ0hFTSAxMjQgLSBCaW9pbm9yZ2FuaWMgQ2hlbWlzdHJ5ICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1AwOGRkAgMPDxYCHwAFAjM5ZGQCBA9kFgICAQ8PFgIfAAUCMzRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjkuNyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTMuOSVkZAIHD2QWAgIBDw8WAh8ABQQ1LjYyZGQCCA9kFgQCAQ8PFgIfAAUHMy4wMzEyNWRkAgMPDxYCHwAFCEIgKDMuMDMpZGQCCQ9kFgQCAQ8PFgIfAAUFMi44MDVkZAIDDw8WAh8ABQlCLSAoMi44MSlkZALIEA9kFhRmDw8WAh8ABSNUZXpjYW4sIEZhaWsgICAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyNDBkZAIDDw8WAh8ABQY2MjE3OTVkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MjE3OTUfAAUtQ0hFTSAxMjQgLSBCaW9pbm9yZ2FuaWMgQ2hlbWlzdHJ5ICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1AwOGRkAgMPDxYCHwAFAjM5ZGQCBA9kFgICAQ8PFgIfAAUCMzRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjkuNyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTMuOSVkZAIHD2QWAgIBDw8WAh8ABQQ1LjYyZGQCCA9kFgQCAQ8PFgIfAAUHMy4wMzEyNWRkAgMPDxYCHwAFCEIgKDMuMDMpZGQCCQ9kFgQCAQ8PFgIfAAUFMi44MDVkZAIDDw8WAh8ABQlCLSAoMi44MSlkZALJEA9kFhRmDw8WAh8ABR5Db2hlbiwgU2V0aCBNICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjQwZGQCAw8PFgIfAAUGNjIxNzk1ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjIxNzk1HwAFLUNIRU0gMTI1IC0gQmlvaW5vcmdhbmljIENoZW1pc3RyeSAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNQMDhkZAIDDw8WAh8ABQIzOWRkAgQPZBYCAgEPDxYCHwAFAjM0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTY5LjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkzLjklZGQCBw9kFgICAQ8PFgIfAAUENS42MmRkAggPZBYEAgEPDxYCHwAFBzMuMDMxMjVkZAIDDw8WAh8ABQhCICgzLjAzKWRkAgkPZBYEAgEPDxYCHwAFBTIuODA1ZGQCAw8PFgIfAAUJQi0gKDIuODEpZGQCyhAPZBYUZg8PFgIfAAUjVGV6Y2FuLCBGYWlrICAgICAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjQwZGQCAw8PFgIfAAUGNjIxNzk1ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjIxNzk1HwAFLUNIRU0gMTI1IC0gQmlvaW5vcmdhbmljIENoZW1pc3RyeSAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNQMDhkZAIDDw8WAh8ABQIzOWRkAgQPZBYCAgEPDxYCHwAFAjM0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTY5LjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkzLjklZGQCBw9kFgICAQ8PFgIfAAUENS42MmRkAggPZBYEAgEPDxYCHwAFBzMuMDMxMjVkZAIDDw8WAh8ABQhCICgzLjAzKWRkAgkPZBYEAgEPDxYCHwAFBTIuODA1ZGQCAw8PFgIfAAUJQi0gKDIuODEpZGQCyxAPZBYUZg8PFgIfAAUeSm9zZXBoLCBTaW1wc29uICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI0MGRkAgMPDxYCHwAFBjYyMTc1OGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYyMTc1OB8ABSxDSEVNIDEzIC0gQ2hlbWlzdHJ5IG9mIExpZmUgICAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNQMDhkZAIDDw8WAh8ABQMxNzNkZAIED2QWAgIBDw8WAh8ABQI4N2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4My41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MS44JWRkAgcPZBYCAgEPDxYCHwAFBDMuMjdkZAIID2QWBAIBDw8WAh8ABRAzLjU0Nzk0NTIwNTQ3OTQ1ZGQCAw8PFgIfAAUJQisgKDMuNTUpZGQCCQ9kFgQCAQ8PFgIfAAUFMi44ODJkZAIDDw8WAh8ABQlCLSAoMi44OClkZALMEA9kFhRmDw8WAh8ABR5TaW5oYSwgQW1pdGFiaGEgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjQwZGQCAw8PFgIfAAUGNjIxNzk2ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjIxNzk2HwAFLUNIRU0gMTMzIC0gUGh5c2ljYWwgQ2hlbWlzdHJ5ICAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNQMDhkZAIDDw8WAh8ABQI3MGRkAgQPZBYCAgEPDxYCHwAFAjQyZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTcwLjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkwLjAlZGQCBw9kFgICAQ8PFgIfAAUEOC41NWRkAggPZBYEAgEPDxYCHwAFBTMuMDI1ZGQCAw8PFgIfAAUIQiAoMy4wMylkZAIJD2QWBAIBDw8WAh8ABQUyLjMzNmRkAgMPDxYCHwAFCUMrICgyLjM0KWRkAs0QD2QWFGYPDxYCHwAFHlRlcm5hbnNreSwgUm9iZXJ0IEouICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyNDBkZAIDDw8WAh8ABQY2MjE4MDBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MjE4MDAfAAUvQ0hFTSAxNDBBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRTUDA4ZGQCAw8PFgIfAAUDMjg2ZGQCBA9kFgICAQ8PFgIfAAUDMjIwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgyLjElZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg4LjclZGQCBw9kFgICAQ8PFgIfAAUEOC4wMWRkAggPZBYEAgEPDxYCHwAFEDMuMDE5MDQ3NjE5MDQ3NjJkZAIDDw8WAh8ABQhCICgzLjAyKWRkAgkPZBYEAgEPDxYCHwAFBTIuNjg2ZGQCAw8PFgIfAAUJQysgKDIuNjkpZGQCzhAPZBYUZg8PFgIfAAUeTmVmemksIEFkZWwgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI0MGRkAgMPDxYCHwAFBjYyMTgxMWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYyMTgxMR8ABS9DSEVNIDE0MEIgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSUkgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNQMDhkZAIDDw8WAh8ABQMzMDdkZAIED2QWAgIBDw8WAh8ABQMxNzlkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODEuNCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTMuOCVkZAIHD2QWAgIBDw8WAh8ABQQ2LjAxZGQCCA9kFgQCAQ8PFgIfAAUQMy4wODA0NTk3NzAxMTQ5NGRkAgMPDxYCHwAFCEIgKDMuMDgpZGQCCQ9kFgQCAQ8PFgIfAAUFMi41MDNkZAIDDw8WAh8ABQlDKyAoMi41MClkZALPEA9kFhRmDw8WAh8ABR5MYSBDbGFpciwgSmFtZXMgSi4gICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjQwZGQCAw8PFgIfAAUGNjI3NzY2ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjI3NzY2HwAFL0NIRU0gMTQwQiAgLSBPcmdhbmljIENoZW1pc3RyeSBJSSAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUEU1AwOGRkAgMPDxYCHwAFAzI2NmRkAgQPZBYCAgEPDxYCHwAFAzEzNGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3OC41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3Ny41JWRkAgcPZBYCAgEPDxYCHwAFBDUuNTZkZAIID2QWBAIBDw8WAh8ABRAzLjcwNzY5MjMwNzY5MjMxZGQCAw8PFgIfAAUJQS0gKDMuNzEpZGQCCQ9kFgQCAQ8PFgIfAAUFMy40NjVkZAIDDw8WAh8ABQlCKyAoMy40NylkZALQEA9kFhRmDw8WAh8ABQ1GaW5uLCBNaWNoYWVsZGQCAQ9kFgYCAQ8PFgIfAAUENDI0MGRkAgMPDxYCHwAFBjYyMTgyMmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYyMTgyMh8ABS9DSEVNIDE0MEMgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSUlJICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNQMDhkZAIDDw8WAh8ABQMxOTRkZAIED2QWAgIBDw8WAh8ABQMxNDJkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODMuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODguNyVkZAIHD2QWAgIBDw8WAh8ABQQ2Ljk5ZGQCCA9kFgQCAQ8PFgIfAAUQMy40Mzc5NTYyMDQzNzk1NmRkAgMPDxYCHwAFCUIrICgzLjQ0KWRkAgkPZBYEAgEPDxYCHwAFBTMuMDk2ZGQCAw8PFgIfAAUIQiAoMy4xMClkZALREA9kFhRmDw8WAh8ABR5OZWZ6aSwgQWRlbCAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjQwZGQCAw8PFgIfAAUGNjIxODM0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjIxODM0HwAFL0NIRU0gMTQwQyAgLSBPcmdhbmljIENoZW1pc3RyeSBJSUkgICAgICAgICAgKEIpZGQCAg8PFgIfAAUEU1AwOGRkAgMPDxYCHwAFAzM0MWRkAgQPZBYCAgEPDxYCHwAFAzI1NWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NC44JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4OC44JWRkAgcPZBYCAgEPDxYCHwAFBDYuOTRkZAIID2QWBAIBDw8WAh8ABRAzLjMyNzY1OTU3NDQ2ODA5ZGQCAw8PFgIfAAUJQisgKDMuMzMpZGQCCQ9kFgQCAQ8PFgIfAAUFMi44NzhkZAIDDw8WAh8ABQlCLSAoMi44OClkZALSEA9kFhRmDw8WAh8ABR5Ub3IsIFlpdHpoYWsgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjQwZGQCAw8PFgIfAAUGNjI0NDYyZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjI0NDYyHwAFL0NIRU0gMTQwQ0ggLSBIb25vcnMgT3JnYW5pYyBDaGVtaXN0cnkgICAgICAgKEEpZGQCAg8PFgIfAAUEU1AwOGRkAgMPDxYCHwAFAjM0ZGQCBA9kFgICAQ8PFgIfAAUCMzBkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTYuNyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUENi42M2RkAggPZBYEAgEPDxYCHwAFEDMuNjY2NjY2NjY2NjY2NjdkZAIDDw8WAh8ABQlCKyAoMy42NylkZAIJD2QWBAIBDw8WAh8ABQUzLjc5MWRkAgMPDxYCHwAFCUEtICgzLjc5KWRkAtMQD2QWFGYPDxYCHwAFHldlaXptYW4sIEhhaW0gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyNDBkZAIDDw8WAh8ABQY2MjE4NDVkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MjE4NDUfAAUvQ0hFTSAxNDNBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IExhYm9yYXRvcnkgICAoQSlkZAICDw8WAh8ABQRTUDA4ZGQCAw8PFgIfAAUDMzg0ZGQCBA9kFgICAQ8PFgIfAAUDMTYzZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkwLjQlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk1LjUlZGQCBw9kFgICAQ8PFgIfAAUENi4zMGRkAggPZBYEAgEPDxYCHwAFEDMuNDA1NDA1NDA1NDA1NDFkZAIDDw8WAh8ABQlCKyAoMy40MSlkZAIJD2QWBAIBDw8WAh8ABQUzLjAwNWRkAgMPDxYCHwAFCEIgKDMuMDEpZGQC1BAPZBYUZg8PFgIfAAUeVGVybmFuc2t5LCBSb2JlcnQgSi4gICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI0MGRkAgMPDxYCHwAFBjYyMTg2OGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYyMTg2OB8ABS9DSEVNIDE0M0IgIC0gT3JnYW5pYyBDaGVtaXN0cnkgTGFib3JhdG9yeSAgIChBKWRkAgIPDxYCHwAFBFNQMDhkZAIDDw8WAh8ABQI5N2RkAgQPZBYCAgEPDxYCHwAFAjgwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg5LjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkzLjIlZGQCBw9kFgICAQ8PFgIfAAUENS43N2RkAggPZBYEAgEPDxYCHwAFEDMuMTgxODE4MTgxODE4MThkZAIDDw8WAh8ABQhCICgzLjE4KWRkAgkPZBYEAgEPDxYCHwAFBTMuMjcxZGQCAw8PFgIfAAUIQiAoMy4yNylkZALVEA9kFhRmDw8WAh8ABR5CdXJrYXJ0LCBNaWNoYWVsIEQgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjQwZGQCAw8PFgIfAAUGNjIxODc2ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjIxODc2HwAFLUNIRU0gMTU3IC0gTmF0dXJhbCBQcm9kdWN0cyBDaGVtaXN0cnkgICAgIChBKWRkAgIPDxYCHwAFBFNQMDhkZAIDDw8WAh8ABQIyM2RkAgQPZBYCAgEPDxYCHwAFAjI4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg1LjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg5LjMlZGQCBw9kFgICAQ8PFgIfAAUENC4yOWRkAggPZBYEAgEPDxYCHwAFEDMuNDIzMDc2OTIzMDc2OTJkZAIDDw8WAh8ABQlCKyAoMy40MilkZAIJD2QWBAIBDw8WAh8ABQUzLjQzMmRkAgMPDxYCHwAFCUIrICgzLjQzKWRkAtYQD2QWFGYPDxYCHwAFHlJ1c3NlbGwsIEx5bm4gTS4gICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyNDBkZAIDDw8WAh8ABQY2MjE4NzdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MjE4NzcfAAUtQ0hFTSAxNzMgLSBBdG1vc3BoZXJpYyBDaGVtaXN0cnkgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1AwOGRkAgMPDxYCHwAFAjY4ZGQCBA9kFgICAQ8PFgIfAAUCNTRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTIuNiVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTIuNiVkZAIHD2QWAgIBDw8WAh8ABQQzLjkxZGQCCA9kFgQCAQ8PFgIfAAUDMy41ZGQCAw8PFgIfAAUJQisgKDMuNTApZGQCCQ9kFgQCAQ8PFgIfAAUFMy40NzFkZAIDDw8WAh8ABQlCKyAoMy40NylkZALXEA9kFhRmDw8WAh8ABR5Dendvcmtvd3NraSwgSm9obiAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjQwZGQCAw8PFgIfAAUGNjIxODgwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjIxODgwHwAFLUNIRU0gMTg4IC0gQ2Fwc3RvbmUgU2VtIGluIFNjaWVuY2UgRWR1Y3RuIChBKWRkAgIPDxYCHwAFBFNQMDhkZAIDDw8WAh8ABQE4ZGQCBA9kFgICAQ8PFgIfAAUBOGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ny41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ0LjI1ZGQCCA9kFgQCAQ8PFgIfAAUFMy4zNzVkZAIDDw8WAh8ABQlCKyAoMy4zOClkZAIJD2QWAgIBDw8WAh8AZWRkAtgQD2QWFGYPDxYCHwAFHlRlemNhbiwgRmFpayAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyNDBkZAIDDw8WAh8ABQY2MjE2NjdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MjE2NjcfAAUtQ0hFTSA2QSAgLSBHZW5lcmFsIENoZW1pc3RyeSBJICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1AwOGRkAgMPDxYCHwAFAzE3OWRkAgQPZBYCAgEPDxYCHwAFAzEwNmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MC40JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NS4yJWRkAgcPZBYCAgEPDxYCHwAFBDQuOTBkZAIID2QWBAIBDw8WAh8ABRAzLjE0Mjg1NzE0Mjg1NzE0ZGQCAw8PFgIfAAUIQiAoMy4xNClkZAIJD2QWBAIBDw8WAh8ABQUyLjI5OWRkAgMPDxYCHwAFCEMgKDIuMzApZGQC2RAPZBYUZg8PFgIfAAUeSG9lZ2VyLCBDYXJsICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI0MGRkAgMPDxYCHwAFBjYyMTY3N2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYyMTY3Nx8ABS1DSEVNIDZCICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IElJICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRTUDA4ZGQCAw8PFgIfAAUDMzE2ZGQCBA9kFgICAQ8PFgIfAAUDMjE3ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgyLjklZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk1LjclZGQCBw9kFgICAQ8PFgIfAAUENi4wOGRkAggPZBYEAgEPDxYCHwAFEDMuMDgxNzMwNzY5MjMwNzdkZAIDDw8WAh8ABQhCICgzLjA4KWRkAgkPZBYEAgEPDxYCHwAFBTIuODE1ZGQCAw8PFgIfAAUJQi0gKDIuODIpZGQC2hAPZBYUZg8PFgIfAAUeRGlwYXNxdWFsZSwgQW50b25pbyAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI0MGRkAgMPDxYCHwAFBjYyMTY4N2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYyMTY4Nx8ABS1DSEVNIDZCICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IElJICAgICAgICAgICAoQilkZAICDw8WAh8ABQRTUDA4ZGQCAw8PFgIfAAUDMjYzZGQCBA9kFgICAQ8PFgIfAAUDMTgzZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg2LjYlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg3LjElZGQCBw9kFgICAQ8PFgIfAAUENC43N2RkAggPZBYEAgEPDxYCHwAFEDMuMTM4ODg4ODg4ODg4ODlkZAIDDw8WAh8ABQhCICgzLjE0KWRkAgkPZBYEAgEPDxYCHwAFBDIuNzhkZAIDDw8WAh8ABQlCLSAoMi43OClkZALbEA9kFhRmDw8WAh8ABR5CZXJuaW9sbGVzLCBTYW5kcmluZSAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjQwZGQCAw8PFgIfAAUGNjIxNjk3ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjIxNjk3HwAFLUNIRU0gNkJMIC0gSW50ciBJbm9yZ2FuaWMgQ2hlbSBMYWJvcmF0b3J5IChBKWRkAgIPDxYCHwAFBFNQMDhkZAIDDw8WAh8ABQMyMjRkZAIED2QWAgIBDw8WAh8ABQI2MWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU1NS4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NS4wJWRkAgcPZBYCAgEPDxYCHwAFBDkuNDVkZAIID2QWBAIBDw8WAh8ABRAzLjQxNjY2NjY2NjY2NjY3ZGQCAw8PFgIfAAUJQisgKDMuNDIpZGQCCQ9kFgQCAQ8PFgIfAAUFMi45NDZkZAIDDw8WAh8ABQlCLSAoMi45NSlkZALcEA9kFhRmDw8WAh8ABR5CZXJuaW9sbGVzLCBTYW5kcmluZSAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjQwZGQCAw8PFgIfAAUGNjIxNzEyZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjIxNzEyHwAFLUNIRU0gNkJMIC0gSW50ciBJbm9yZ2FuaWMgQ2hlbSBMYWJvcmF0b3J5IChCKWRkAgIPDxYCHwAFBFNQMDhkZAIDDw8WAh8ABQMyNDFkZAIED2QWAgIBDw8WAh8ABQI1NmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU2My41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Ni4yJWRkAgcPZBYCAgEPDxYCHwAFBDkuMDVkZAIID2QWBAIBDw8WAh8ABRAzLjM5NjIyNjQxNTA5NDM0ZGQCAw8PFgIfAAUJQisgKDMuNDApZGQCCQ9kFgQCAQ8PFgIfAAUFMi45NDZkZAIDDw8WAh8ABQlCLSAoMi45NSlkZALdEA9kFhRmDw8WAh8ABR5Ucm9nbGVyLCBXaWxsaWFtIEMgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjQwZGQCAw8PFgIfAAUGNjIxNzI1ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjIxNzI1HwAFLUNIRU0gNkMgIC0gR2VuZXJhbCBDaGVtaXN0cnkgIElJSSAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNQMDhkZAIDDw8WAh8ABQMyODVkZAIED2QWAgIBDw8WAh8ABQI3N2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3NS4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU2My4yJWRkAgcPZBYCAgEPDxYCHwAFBDYuNDVkZAIID2QWBAIBDw8WAh8ABRAzLjI2MzE1Nzg5NDczNjg0ZGQCAw8PFgIfAAUIQiAoMy4yNilkZAIJD2QWBAIBDw8WAh8ABQQyLjY3ZGQCAw8PFgIfAAUJQysgKDIuNjcpZGQC3hAPZBYUZg8PFgIfAAUeRGlwYXNxdWFsZSwgQW50b25pbyAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI0MGRkAgMPDxYCHwAFBjYyMTczNWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYyMTczNR8ABS1DSEVNIDZDICAtIEdlbmVyYWwgQ2hlbWlzdHJ5ICBJSUkgICAgICAgICAoQilkZAICDw8WAh8ABQRTUDA4ZGQCAw8PFgIfAAUDMzUxZGQCBA9kFgICAQ8PFgIfAAUDMjA1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc2LjYlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTcyLjUlZGQCBw9kFgICAQ8PFgIfAAUENC42OGRkAggPZBYEAgEPDxYCHwAFEDMuMTcxNzE3MTcxNzE3MTdkZAIDDw8WAh8ABQhCICgzLjE3KWRkAgkPZBYEAgEPDxYCHwAFBTIuNzk5ZGQCAw8PFgIfAAUJQi0gKDIuODApZGQC3xAPZBYUZg8PFgIfAAUeSG9lZ2VyLCBDYXJsICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDI0MGRkAgMPDxYCHwAFBjYyMTc0NWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYyMTc0NR8ABS1DSEVNIDZDICAtIEdlbmVyYWwgQ2hlbWlzdHJ5ICBJSUkgICAgICAgICAoQylkZAICDw8WAh8ABQRTUDA4ZGQCAw8PFgIfAAUDMzI5ZGQCBA9kFgICAQ8PFgIfAAUDMTg3ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg1LjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk1LjElZGQCBw9kFgICAQ8PFgIfAAUENS44NGRkAggPZBYEAgEPDxYCHwAFEDMuMjMzNjk1NjUyMTczOTFkZAIDDw8WAh8ABQhCICgzLjIzKWRkAgkPZBYEAgEPDxYCHwAFBTMuMDA4ZGQCAw8PFgIfAAUIQiAoMy4wMSlkZALgEA9kFhRmDw8WAh8ABR5Db2hlbiwgU2V0aCBNICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjQwZGQCAw8PFgIfAAUGNjIxNzU1ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjIxNzU1HwAFLUNIRU0gNkNIIC0gSG9ub3JzIEdlbmVyYWwgQ2hlbWlzdHJ5IElJSSAgIChBKWRkAgIPDxYCHwAFBFNQMDhkZAIDDw8WAh8ABQMxMTlkZAIED2QWAgIBDw8WAh8ABQMxMDBkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTcuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTguMCVkZAIHD2QWAgIBDw8WAh8ABQQ0LjcyZGQCCA9kFgQCAQ8PFgIfAAUGMy41NjI1ZGQCAw8PFgIfAAUJQisgKDMuNTYpZGQCCQ9kFgQCAQ8PFgIfAAUFMi44MDJkZAIDDw8WAh8ABQlCLSAoMi44MClkZALhEA9kFhRmDw8WAh8ABR5Db2hlbiwgU2V0aCBNICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjQwZGQCAw8PFgIfAAUGNjI0ODY4ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjI0ODY4HwAFLENIRU0gODcgLSBGcmVzaG1hbiBTZW1pbmFyICAgICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1AwOGRkAgMPDxYCHwAFAjE5ZGQCBA9kFgICAQ8PFgIfAAUCMTRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDIuMDdkZAIID2QWBAIBDw8WAh8ABQE0ZGQCAw8PFgIfAAUIQSAoNC4wMClkZAIJD2QWAgIBDw8WAh8AZWRkAuIQD2QWFGYPDxYCHwAFHldlaXptYW4sIEhhaW0gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyNDBkZAIDDw8WAh8ABQY2MzM5MjZkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MzM5MjYfAAUsQ0hFTSA4NyAtIEZyZXNobWFuIFNlbWluYXIgICAgICAgICAgICAgICAoQilkZAICDw8WAh8ABQRTUDA4ZGQCAw8PFgIfAAUCMTRkZAIED2QWAgIBDw8WAh8ABQIxM2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUEMC42NWRkAggPZBYCAgEPDxYCHwBlZGQCCQ9kFgICAQ8PFgIfAGVkZALjEA9kFhRmDw8WAh8ABR5UdWtleSwgUm9iZXJ0IEggICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjQwZGQCAw8PFgIfAAUGNjIxNzY1ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjIxNzY1HwAFLENIRU0gOTIgLSBVbmRlcmdyYWQgUGhhcm1hY29sb2d5IFNlbWluYXIgKEEpZGQCAg8PFgIfAAUEU1AwOGRkAgMPDxYCHwAFAzE3MWRkAgQPZBYCAgEPDxYCHwAFAzExOWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Ny40JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Ny40JWRkAgcPZBYCAgEPDxYCHwAFBDAuOTVkZAIID2QWBAIBDw8WAh8ABQE0ZGQCAw8PFgIfAAUIQSAoNC4wMClkZAIJD2QWAgIBDw8WAh8AZWRkAuQQD2QWFGYPDxYCHwAFHkN6d29ya293c2tpLCBKb2huICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyNDBkZAIDDw8WAh8ABQY2MjE3NjZkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MjE3NjYfAAUsQ0hFTSA5NiAtIEludHJvZHVjdG4gdG8gVGVhY2hpbmcgU2NpZW5jZSAoQSlkZAICDw8WAh8ABQRTUDA4ZGQCAw8PFgIfAAUBOWRkAgQPZBYCAgEPDxYCHwAFATlkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODguOSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUEMi4wNmRkAggPZBYEAgEPDxYCHwAFATRkZAIDDw8WAh8ABQhBICg0LjAwKWRkAgkPZBYCAgEPDxYCHwBlZGQC5RAPZBYUZg8PFgIfAAUeRmVuZywgRGEgRmVpICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIzMGRkAgMPDxYCHwAFBjYxMzcwOGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYxMzcwOB8ABS9DSEVNIDEwMEEgIC0gQW5hbHl0aWNhbCBDaGVtIExhYiAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMDhkZAIDDw8WAh8ABQI3MGRkAgQPZBYCAgEPDxYCHwAFAjY2ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTU5LjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTcxLjAlZGQCBw9kFgICAQ8PFgIfAAUFMTAuMDJkZAIID2QWBAIBDw8WAh8ABRAzLjMxMTQ3NTQwOTgzNjA3ZGQCAw8PFgIfAAUJQisgKDMuMzEpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4xOTlkZAIDDw8WAh8ABQhCICgzLjIwKWRkAuYQD2QWFGYPDxYCHwAFHlBvbWVyb3ksIFJvYmVydCBTLiAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMzBkZAIDDw8WAh8ABQY2MTQ5NzlkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MTQ5NzkfAAUvQ0hFTSAxMDBCICAtIEZ1bmRhbWVudGxzL0luc3RydW1lbnRsIEFuYWx5cyAoQSlkZAICDw8WAh8ABQRXSTA4ZGQCAw8PFgIfAAUCMTRkZAIED2QWAgIBDw8WAh8ABQIxMWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MC45JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4MS44JWRkAgcPZBYCAgEPDxYCHwAFBDUuOTVkZAIID2QWBAIBDw8WAh8ABQMzLjNkZAIDDw8WAh8ABQlCKyAoMy4zMClkZAIJD2QWAgIBDw8WAh8AZWRkAucQD2QWFGYPDxYCHwAFHlRhdWJlciwgTWljaGFlbCAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMzBkZAIDDw8WAh8ABQY2MTM3MTdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MTM3MTcfAAUvQ0hFTSAxMDVBICAtIFBoeXNpY2FsIENoZW1pc3RyeSBMYWJvcmF0b3J5ICAoQSlkZAICDw8WAh8ABQRXSTA4ZGQCAw8PFgIfAAUCMzhkZAIED2QWAgIBDw8WAh8ABQIyOGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU2MC43JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5Mi45JWRkAgcPZBYCAgEPDxYCHwAFBDkuNjRkZAIID2QWBAIBDw8WAh8ABRAzLjE0Mjg1NzE0Mjg1NzE0ZGQCAw8PFgIfAAUIQiAoMy4xNClkZAIJD2QWBAIBDw8WAh8ABQUyLjk2MWRkAgMPDxYCHwAFCUItICgyLjk2KWRkAugQD2QWFGYPDxYCHwAFI0Nyb3dsZXksIFRob21hcyBFLiAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIzMGRkAgMPDxYCHwAFBjYxMzcyMGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYxMzcyMB8ABS1DSEVNIDEwOCAtIE1vbGVjdWxhciBCaW9jaGVtaXN0cnkgTGFiICAgICAoQSlkZAICDw8WAh8ABQRXSTA4ZGQCAw8PFgIfAAUCMjJkZAIED2QWAgIBDw8WAh8ABQIyMmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4MC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NS4wJWRkAgcPZBYCAgEPDxYCHwAFBDYuODZkZAIID2QWBAIBDw8WAh8ABRAzLjMzMzMzMzMzMzMzMzMzZGQCAw8PFgIfAAUJQisgKDMuMzMpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4zMDhkZAIDDw8WAh8ABQlCKyAoMy4zMSlkZALpEA9kFhRmDw8WAh8ABSNDcm93bGV5LCBUaG9tYXMgRS4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMzBkZAIDDw8WAh8ABQY2MTM3MjBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MTM3MjAfAAUvQ0hFTSAxMTJBICAtIE1vbGVjdWxhciBCaW9jaGVtaXN0cnkgTGFiICAgICAoQSlkZAICDw8WAh8ABQRXSTA4ZGQCAw8PFgIfAAUCMjJkZAIED2QWAgIBDw8WAh8ABQIyMmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4MC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NS4wJWRkAgcPZBYCAgEPDxYCHwAFBDYuODZkZAIID2QWBAIBDw8WAh8ABRAzLjMzMzMzMzMzMzMzMzMzZGQCAw8PFgIfAAUJQisgKDMuMzMpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4zMDhkZAIDDw8WAh8ABQlCKyAoMy4zMSlkZALqEA9kFhRmDw8WAh8ABR5WaWFkaXUsIEhlY3RvciAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjMwZGQCAw8PFgIfAAUGNjEzNzI3ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjEzNzI3HwAFL0NIRU0gMTE0QSAgLSBCaW9jaGVtaWNhbCBTdHJ1Y3R1cmUmRnVuY3Rpb24gKEEpZGQCAg8PFgIfAAUEV0kwOGRkAgMPDxYCHwAFAjg3ZGQCBA9kFgICAQ8PFgIfAAUCNDNkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODguNCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzYuNyVkZAIHD2QWAgIBDw8WAh8ABQQ2LjA3ZGQCCA9kFgQCAQ8PFgIfAAUFMy40MjVkZAIDDw8WAh8ABQlCKyAoMy40MylkZAIJD2QWBAIBDw8WAh8ABQUyLjk1M2RkAgMPDxYCHwAFCUItICgyLjk1KWRkAusQD2QWFGYPDxYCHwAFHldhbmcsIFdlaSAgICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMzBkZAIDDw8WAh8ABQY2MTM3MzBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MTM3MzAfAAUvQ0hFTSAxMTRCICAtIEJpb2NoZW0gRW5lcmdldGljcyZNZXRhYm9saXNtICAoQSlkZAICDw8WAh8ABQRXSTA4ZGQCAw8PFgIfAAUDMTk1ZGQCBA9kFgICAQ8PFgIfAAUCNjFkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzguMyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNTAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ2LjcwZGQCCA9kFgQCAQ8PFgIfAAUQMy4zNTU5MzIyMDMzODk4M2RkAgMPDxYCHwAFCUIrICgzLjM2KWRkAgkPZBYEAgEPDxYCHwAFBTIuNDk0ZGQCAw8PFgIfAAUJQysgKDIuNDkpZGQC7BAPZBYUZg8PFgIfAAUeTmFrYWdhd2EsIFRlcnVuYWdhICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIzMGRkAgMPDxYCHwAFBjYxMzY5M2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYxMzY5Mx8ABSxDSEVNIDEyIC0gTW9sZWN1bGVzIGFuZCBSZWFjdGlvbnMgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMDhkZAIDDw8WAh8ABQMxNTRkZAIED2QWAgIBDw8WAh8ABQMxMTVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFMzkuOCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFMzIuMSVkZAIHD2QWAgIBDw8WAh8ABQQzLjkyZGQCCA9kFgQCAQ8PFgIfAAUQMi45ODgwOTUyMzgwOTUyNGRkAgMPDxYCHwAFCUItICgyLjk5KWRkAgkPZBYEAgEPDxYCHwAFBTIuNzc5ZGQCAw8PFgIfAAUJQi0gKDIuNzgpZGQC7RAPZBYUZg8PFgIfAAUeUmhlaW5nb2xkLCBBcm5vbGQgTCAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIzMGRkAgMPDxYCHwAFBjYxMzczOGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYxMzczOB8ABS9DSEVNIDEyMEIgIC0gSW5vcmdhbmljIENoZW1pc3RyeSBJSSAgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMDhkZAIDDw8WAh8ABQI0OGRkAgQPZBYCAgEPDxYCHwAFAjM1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc3LjElZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg0LjQlZGQCBw9kFgICAQ8PFgIfAAUENS43MGRkAggPZBYEAgEPDxYCHwAFEDMuMDI5NDExNzY0NzA1ODhkZAIDDw8WAh8ABQhCICgzLjAzKWRkAgkPZBYEAgEPDxYCHwAFBTMuMjc3ZGQCAw8PFgIfAAUIQiAoMy4yOClkZALuEA9kFhRmDw8WAh8ABR5NYWdkZSwgRG91Z2xhcyAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjMwZGQCAw8PFgIfAAUGNjEzNzQyZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjEzNzQyHwAFLUNIRU0gMTI3IC0gUGh5c2ljYWwgQ2hlbWlzdHJ5ICAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMDhkZAIDDw8WAh8ABQMxODZkZAIED2QWAgIBDw8WAh8ABQI5MGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU2MS44JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3OS44JWRkAgcPZBYCAgEPDxYCHwAFBDYuNDNkZAIID2QWBAIBDw8WAh8ABRAzLjI1ODQyNjk2NjI5MjEzZGQCAw8PFgIfAAUIQiAoMy4yNilkZAIJD2QWBAIBDw8WAh8ABQUyLjg4NmRkAgMPDxYCHwAFCUItICgyLjg5KWRkAu8QD2QWFGYPDxYCHwAFHkxpbmRlbmJlcmcsIEthdGphICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMzBkZAIDDw8WAh8ABQY2MTM3NDlkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MTM3NDkfAAUtQ0hFTSAxMzIgLSBQaHlzaWNhbCBDaGVtaXN0cnkgICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEV0kwOGRkAgMPDxYCHwAFAzEwOWRkAgQPZBYCAgEPDxYCHwAFAjc1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc1LjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg2LjUlZGQCBw9kFgICAQ8PFgIfAAUEOC4zMWRkAggPZBYEAgEPDxYCHwAFEDMuMTY2NjY2NjY2NjY2NjdkZAIDDw8WAh8ABQhCICgzLjE3KWRkAgkPZBYEAgEPDxYCHwAFBTIuNDQxZGQCAw8PFgIfAAUJQysgKDIuNDQpZGQC8BAPZBYUZg8PFgIfAAUeV2hpdGVzZWxsLCBKYW1lcyBLLiAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIzMGRkAgMPDxYCHwAFBjYxMzc1MmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYxMzc1Mh8ABS9DSEVNIDE0MEEgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSSAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMDhkZAIDDw8WAh8ABQMzNzdkZAIED2QWAgIBDw8WAh8ABQMxMThkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODEuOCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzEuNiVkZAIHD2QWAgIBDw8WAh8ABQQ1LjY1ZGQCCA9kFgQCAQ8PFgIfAAUQMy40NjAxNzY5OTExNTA0NGRkAgMPDxYCHwAFCUIrICgzLjQ2KWRkAgkPZBYEAgEPDxYCHwAFBDIuNTZkZAIDDw8WAh8ABQlDKyAoMi41NilkZALxEA9kFhRmDw8WAh8ABR5PY29ubm9yLCBKb3NlcGggTS4gICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjMwZGQCAw8PFgIfAAUGNjEzNzYzZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjEzNzYzHwAFL0NIRU0gMTQwQSAgLSBPcmdhbmljIENoZW1pc3RyeSBJICAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUEV0kwOGRkAgMPDxYCHwAFAzM2MGRkAgQPZBYCAgEPDxYCHwAFAzE5OWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4OS4yJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5OC41JWRkAgcPZBYCAgEPDxYCHwAFBDYuMjNkZAIID2QWBAIBDw8WAh8ABRAzLjI1MjYzMTU3ODk0NzM3ZGQCAw8PFgIfAAUIQiAoMy4yNSlkZAIJD2QWBAIBDw8WAh8ABQUyLjUxOGRkAgMPDxYCHwAFCUMrICgyLjUyKWRkAvIQD2QWFGYPDxYCHwAFHk5lZnppLCBBZGVsICAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMzBkZAIDDw8WAh8ABQY2MTM3NzRkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MTM3NzQfAAUvQ0hFTSAxNDBCICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IElJICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRXSTA4ZGQCAw8PFgIfAAUDMzM4ZGQCBA9kFgICAQ8PFgIfAAUDMjk0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgyLjUlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk1LjMlZGQCBw9kFgICAQ8PFgIfAAUENi44MmRkAggPZBYEAgEPDxYCHwAFEDMuMTk2ODUwMzkzNzAwNzlkZAIDDw8WAh8ABQhCICgzLjIwKWRkAgkPZBYEAgEPDxYCHwAFBTIuNjA0ZGQCAw8PFgIfAAUJQysgKDIuNjApZGQC8xAPZBYUZg8PFgIfAAUeT2Nvbm5vciwgSm9zZXBoIE0uICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIzMGRkAgMPDxYCHwAFBjYxMzc4NWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYxMzc4NR8ABS9DSEVNIDE0MEIgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSUkgICAgICAgICAgIChCKWRkAgIPDxYCHwAFBFdJMDhkZAIDDw8WAh8ABQMzMDFkZAIED2QWAgIBDw8WAh8ABQMxOTJkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzguMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTYuMyVkZAIHD2QWAgIBDw8WAh8ABQQ3LjAxZGQCCA9kFgQCAQ8PFgIfAAUQMy4xOTc4NjA5NjI1NjY4NGRkAgMPDxYCHwAFCEIgKDMuMjApZGQCCQ9kFgQCAQ8PFgIfAAUFMi42NDhkZAIDDw8WAh8ABQlDKyAoMi42NSlkZAL0EA9kFhRmDw8WAh8ABR5CdXJrYXJ0LCBNaWNoYWVsIEQgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjMwZGQCAw8PFgIfAAUGNjEzNzk2ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjEzNzk2HwAFL0NIRU0gMTQwQiAgLSBPcmdhbmljIENoZW1pc3RyeSBJSSAgICAgICAgICAgKEMpZGQCAg8PFgIfAAUEV0kwOGRkAgMPDxYCHwAFAzEzN2RkAgQPZBYCAgEPDxYCHwAFAzEwNGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4NC44JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NC45JWRkAgcPZBYCAgEPDxYCHwAFBDYuNDRkZAIID2QWBAIBDw8WAh8ABRAzLjQ0MTE3NjQ3MDU4ODI0ZGQCAw8PFgIfAAUJQisgKDMuNDQpZGQCCQ9kFgQCAQ8PFgIfAAUFMi44OTFkZAIDDw8WAh8ABQlCLSAoMi44OSlkZAL1EA9kFhRmDw8WAh8ABR5XZWl6bWFuLCBIYWltICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjMwZGQCAw8PFgIfAAUGNjI0MjQwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjI0MjQwHwAFL0NIRU0gMTQwQkggLSBIb25vcnMgT3JnYW5pYyBDaGVtaXN0cnkgICAgICAgKEEpZGQCAg8PFgIfAAUEV0kwOGRkAgMPDxYCHwAFAjI0ZGQCBA9kFgICAQ8PFgIfAAUCMjRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDguMDBkZAIID2QWBAIBDw8WAh8ABRAzLjgxODE4MTgxODE4MTgyZGQCAw8PFgIfAAUJQS0gKDMuODIpZGQCCQ9kFgQCAQ8PFgIfAAUFMy44ODhkZAIDDw8WAh8ABQlBLSAoMy44OSlkZAL2EA9kFhRmDw8WAh8ABR5OZWZ6aSwgQWRlbCAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjMwZGQCAw8PFgIfAAUGNjEzODA3ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjEzODA3HwAFL0NIRU0gMTQwQyAgLSBPcmdhbmljIENoZW1pc3RyeSBJSUkgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEV0kwOGRkAgMPDxYCHwAFAzIwNmRkAgQPZBYCAgEPDxYCHwAFAzEyOWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4My4xJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NS4yJWRkAgcPZBYCAgEPDxYCHwAFBDcuMDRkZAIID2QWBAIBDw8WAh8ABRAzLjE4MTAzNDQ4Mjc1ODYyZGQCAw8PFgIfAAUIQiAoMy4xOClkZAIJD2QWBAIBDw8WAh8ABQUyLjQ2N2RkAgMPDxYCHwAFCUMrICgyLjQ3KWRkAvcQD2QWFGYPDxYCHwAFHlRlcm5hbnNreSwgUm9iZXJ0IEouICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMzBkZAIDDw8WAh8ABQY2MTM4MTdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MTM4MTcfAAUvQ0hFTSAxNDNBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IExhYm9yYXRvcnkgICAoQSlkZAICDw8WAh8ABQRXSTA4ZGQCAw8PFgIfAAUDMzA5ZGQCBA9kFgICAQ8PFgIfAAUDMjM1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc4LjIlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg0LjQlZGQCBw9kFgICAQ8PFgIfAAUENS4yMWRkAggPZBYEAgEPDxYCHwAFEDMuMjc1MTA5MTcwMzA1NjhkZAIDDw8WAh8ABQhCICgzLjI4KWRkAgkPZBYEAgEPDxYCHwAFBTMuMTE0ZGQCAw8PFgIfAAUIQiAoMy4xMSlkZAL4EA9kFhRmDw8WAh8ABR5XZWl6bWFuLCBIYWltICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjMwZGQCAw8PFgIfAAUGNjEzODQxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjEzODQxHwAFL0NIRU0gMTQzQUggLSBIb25vcnMgT3JnYW5pYyBDaGVtaXN0cnkgTGFiICAgKEEpZGQCAg8PFgIfAAUEV0kwOGRkAgMPDxYCHwAFAjQwZGQCBA9kFgICAQ8PFgIfAAUCMjVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzYuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUFMTAuMzRkZAIID2QWBAIBDw8WAh8ABRAzLjQ1ODMzMzMzMzMzMzMzZGQCAw8PFgIfAAUJQisgKDMuNDYpZGQCCQ9kFgQCAQ8PFgIfAAUFMy40NDFkZAIDDw8WAh8ABQlCKyAoMy40NClkZAL5EA9kFhRmDw8WAh8ABR5UZXJuYW5za3ksIFJvYmVydCBKLiAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjMwZGQCAw8PFgIfAAUGNjEzODQ2ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjEzODQ2HwAFL0NIRU0gMTQzQiAgLSBPcmdhbmljIENoZW1pc3RyeSBMYWJvcmF0b3J5ICAgKEEpZGQCAg8PFgIfAAUEV0kwOGRkAgMPDxYCHwAFAzEwMGRkAgQPZBYCAgEPDxYCHwAFAzEwMGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4My44JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MS45JWRkAgcPZBYCAgEPDxYCHwAFBDUuNTVkZAIID2QWBAIBDw8WAh8ABRAzLjE2MTI5MDMyMjU4MDY1ZGQCAw8PFgIfAAUIQiAoMy4xNilkZAIJD2QWBAIBDw8WAh8ABQUzLjIxN2RkAgMPDxYCHwAFCEIgKDMuMjIpZGQC+hAPZBYUZg8PFgIfAAUeUG9tZXJveSwgUm9iZXJ0IFMuICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIzMGRkAgMPDxYCHwAFBjYxMzg1MWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYxMzg1MR8ABS9DSEVNIDE0OUIgIC0gRW52aXJvbm1lbnRhbCBDaGVtaXN0cnkgICAgICAgIChBKWRkAgIPDxYCHwAFBFdJMDhkZAIDDw8WAh8ABQI0MWRkAgQPZBYCAgEPDxYCHwAFAjI1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg4LjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg4LjAlZGQCBw9kFgICAQ8PFgIfAAUENC43NGRkAggPZBYEAgEPDxYCHwAFEDMuMTQyODU3MTQyODU3MTRkZAIDDw8WAh8ABQhCICgzLjE0KWRkAgkPZBYEAgEPDxYCHwAFBTIuODgzZGQCAw8PFgIfAAUJQi0gKDIuODgpZGQC+xAPZBYUZg8PFgIfAAUeR2xhemVyLCBFZGl0aCBDICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIzMGRkAgMPDxYCHwAFBjYxMzcwNGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYxMzcwNB8ABSxDSEVNIDE1IC0gQ2hlbWlzdHJ5IG9mIHRoZSBVbml2ZXJzZSAgICAgIChBKWRkAgIPDxYCHwAFBFdJMDhkZAIDDw8WAh8ABQI1NWRkAgQPZBYCAgEPDxYCHwAFAjQzZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg2LjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg4LjQlZGQCBw9kFgICAQ8PFgIfAAUEMy4wNmRkAggPZBYEAgEPDxYCHwAFEDMuNTU4ODIzNTI5NDExNzZkZAIDDw8WAh8ABQlCKyAoMy41NilkZAIJD2QWBAIBDw8WAh8ABQUzLjMyNmRkAgMPDxYCHwAFCUIrICgzLjMzKWRkAvwQD2QWFGYPDxYCHwAFHlBlcnJpbiwgQ2hhcmxlcyBMLiAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMzBkZAIDDw8WAh8ABQY2MTM4NTNkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MTM4NTMfAAUtQ0hFTSAxNTYgLSBTdHJ1Y3QmUHJvcGVydGllcy9PcmdhbmMgTW9sZWMgKEEpZGQCAg8PFgIfAAUEV0kwOGRkAgMPDxYCHwAFAjIxZGQCBA9kFgICAQ8PFgIfAAUCMThkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjEuMSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzcuOCVkZAIHD2QWAgIBDw8WAh8ABQQ1LjIxZGQCCA9kFgQCAQ8PFgIfAAUBM2RkAgMPDxYCHwAFCEIgKDMuMDApZGQCCQ9kFgQCAQ8PFgIfAAUFMi45NjdkZAIDDw8WAh8ABQlCLSAoMi45NylkZAL9EA9kFhRmDw8WAh8ABR5UdWtleSwgUm9iZXJ0IEggICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjMwZGQCAw8PFgIfAAUGNjEzODU0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjEzODU0HwAFLUNIRU0gMTY2IC0gRW52aXJvbm1udGwmTW9sZWN1bHIgVG94aWNvbGd5IChBKWRkAgIPDxYCHwAFBFdJMDhkZAIDDw8WAh8ABQIyNGRkAgQPZBYCAgEPDxYCHwAFAjIyZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ1LjA1ZGQCCA9kFgQCAQ8PFgIfAAUQMy45MDkwOTA5MDkwOTA5MWRkAgMPDxYCHwAFCUEtICgzLjkxKWRkAgkPZBYEAgEPDxYCHwAFBTMuNzA4ZGQCAw8PFgIfAAUJQS0gKDMuNzEpZGQC/hAPZBYUZg8PFgIfAAUeUG9tZXJveSwgUm9iZXJ0IFMuICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIzMGRkAgMPDxYCHwAFBjYxMzg1MWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYxMzg1MR8ABS1DSEVNIDE3MiAtIEVudmlyb25tZW50YWwgQ2hlbWlzdHJ5ICAgICAgICAoQSlkZAICDw8WAh8ABQRXSTA4ZGQCAw8PFgIfAAUCNDFkZAIED2QWAgIBDw8WAh8ABQIyNWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4OC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4OC4wJWRkAgcPZBYCAgEPDxYCHwAFBDQuNzRkZAIID2QWBAIBDw8WAh8ABRAzLjE0Mjg1NzE0Mjg1NzE0ZGQCAw8PFgIfAAUIQiAoMy4xNClkZAIJD2QWBAIBDw8WAh8ABQUyLjg4M2RkAgMPDxYCHwAFCUItICgyLjg4KWRkAv8QD2QWFGYPDxYCHwAFEUN6d29ya293c2tpLCBKb2huZGQCAQ9kFgYCAQ8PFgIfAAUENDIzMGRkAgMPDxYCHwAFBjYyNTI2NmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYyNTI2Nh8ABSxDSEVNIDE4NyAtIEZvdW5kbiBvZiBUZWFjaCZMZWFybiBTY2llbmNlIChBKWRkAgIPDxYCHwAFBFdJMDhkZAIDDw8WAh8ABQIxMGRkAgQPZBYCAgEPDxYCHwAFAjEwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQzLjcwZGQCCA9kFgQCAQ8PFgIfAAUQMy44ODg4ODg4ODg4ODg4OWRkAgMPDxYCHwAFCUEtICgzLjg5KWRkAgkPZBYCAgEPDxYCHwBlZGQCgBEPZBYUZg8PFgIfAAUeV2lubiwgRGFyYnkgTGVlICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIzMGRkAgMPDxYCHwAFBjYxMzU4MWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYxMzU4MR8ABS1DSEVNIDZBICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRXSTA4ZGQCAw8PFgIfAAUDMzE2ZGQCBA9kFgICAQ8PFgIfAAUDMTgzZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg1LjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgxLjclZGQCBw9kFgICAQ8PFgIfAAUENS44MGRkAggPZBYEAgEPDxYCHwAFEDMuMDM0Mjg1NzE0Mjg1NzFkZAIDDw8WAh8ABQhCICgzLjAzKWRkAgkPZBYEAgEPDxYCHwAFBTIuNTU1ZGQCAw8PFgIfAAUJQysgKDIuNTYpZGQCgREPZBYUZg8PFgIfAAUeSG9lZ2VyLCBDYXJsICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIzMGRkAgMPDxYCHwAFBjYxMzU5MWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYxMzU5MR8ABS1DSEVNIDZBICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQilkZAICDw8WAh8ABQRXSTA4ZGQCAw8PFgIfAAUDMzA3ZGQCBA9kFgICAQ8PFgIfAAUDMTg0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg5LjQlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk3LjglZGQCBw9kFgICAQ8PFgIfAAUENi40NWRkAggPZBYEAgEPDxYCHwAFEDIuOTg4NjM2MzYzNjM2MzZkZAIDDw8WAh8ABQlCLSAoMi45OSlkZAIJD2QWBAIBDw8WAh8ABQUyLjc4MmRkAgMPDxYCHwAFCUItICgyLjc4KWRkAoIRD2QWFGYPDxYCHwAFHk11bGxlciwgVWxyaWNoIEsuICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMzBkZAIDDw8WAh8ABQY2MTM2MDFkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MTM2MDEfAAUtQ0hFTSA2QiAgLSBHZW5lcmFsIENoZW1pc3RyeSBJSSAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEV0kwOGRkAgMPDxYCHwAFAzEyMGRkAgQPZBYCAgEPDxYCHwAFAjg1ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc0LjElZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTUxLjglZGQCBw9kFgICAQ8PFgIfAAUENS45MGRkAggPZBYEAgEPDxYCHwAFEDMuMDM2MTQ0NTc4MzEzMjVkZAIDDw8WAh8ABQhCICgzLjA0KWRkAgkPZBYEAgEPDxYCHwAFBTIuNTk3ZGQCAw8PFgIfAAUJQysgKDIuNjApZGQCgxEPZBYUZg8PFgIfAAUeRGlwYXNxdWFsZSwgQW50b25pbyAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIzMGRkAgMPDxYCHwAFBjYxMzYxMWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYxMzYxMR8ABS1DSEVNIDZCICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IElJICAgICAgICAgICAoQilkZAICDw8WAh8ABQRXSTA4ZGQCAw8PFgIfAAUDMjMwZGQCBA9kFgICAQ8PFgIfAAUDMTY0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkwLjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk0LjIlZGQCBw9kFgICAQ8PFgIfAAUENS4yMmRkAggPZBYEAgEPDxYCHwAFEDMuMDc0NTM0MTYxNDkwNjhkZAIDDw8WAh8ABQhCICgzLjA3KWRkAgkPZBYEAgEPDxYCHwAFBDIuNzRkZAIDDw8WAh8ABQlCLSAoMi43NClkZAKEEQ9kFhRmDw8WAh8ABR5Dcm93ZWxsLCBKb2huIEUgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjMwZGQCAw8PFgIfAAUGNjEzNjIxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjEzNjIxHwAFLUNIRU0gNkIgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSUkgICAgICAgICAgIChDKWRkAgIPDxYCHwAFBFdJMDhkZAIDDw8WAh8ABQMzMzlkZAIED2QWAgIBDw8WAh8ABQMyMjlkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODQuMiVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzguNiVkZAIHD2QWAgIBDw8WAh8ABQQ2LjExZGQCCA9kFgQCAQ8PFgIfAAUQMy4xMjIxNzE5NDU3MDEzNmRkAgMPDxYCHwAFCEIgKDMuMTIpZGQCCQ9kFgQCAQ8PFgIfAAUFMi43NjdkZAIDDw8WAh8ABQlCLSAoMi43NylkZAKFEQ9kFhRmDw8WAh8ABR5Dcm93ZWxsLCBKb2huIEUgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjMwZGQCAw8PFgIfAAUGNjEzNjMxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjEzNjMxHwAFLUNIRU0gNkIgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSUkgICAgICAgICAgIChEKWRkAgIPDxYCHwAFBFdJMDhkZAIDDw8WAh8ABQMzMzZkZAIED2QWAgIBDw8WAh8ABQMyMjlkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzkuNCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzcuNSVkZAIHD2QWAgIBDw8WAh8ABQQ1Ljk1ZGQCCA9kFgQCAQ8PFgIfAAUQMy4wNTkwOTA5MDkwOTA5MWRkAgMPDxYCHwAFCEIgKDMuMDYpZGQCCQ9kFgQCAQ8PFgIfAAUFMi43NjdkZAIDDw8WAh8ABQlCLSAoMi43NylkZAKGEQ9kFhRmDw8WAh8ABR5LdW1tZWwsIEFuZHJldyBDICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjMwZGQCAw8PFgIfAAUGNjEzNjQxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjEzNjQxHwAFLUNIRU0gNkIgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSUkgICAgICAgICAgIChFKWRkAgIPDxYCHwAFBFdJMDhkZAIDDw8WAh8ABQMyODhkZAIED2QWAgIBDw8WAh8ABQMxODRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODEuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTEuNCVkZAIHD2QWAgIBDw8WAh8ABQQ2LjU1ZGQCCA9kFgQCAQ8PFgIfAAUQMy4wNzEwMDU5MTcxNTk3NmRkAgMPDxYCHwAFCEIgKDMuMDcpZGQCCQ9kFgQCAQ8PFgIfAAUFMi42MDFkZAIDDw8WAh8ABQlDKyAoMi42MClkZAKHEQ9kFhRmDw8WAh8ABR5Ib2VnZXIsIENhcmwgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjMwZGQCAw8PFgIfAAUGNjEzNjUxZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjEzNjUxHwAFLUNIRU0gNkJIIC0gSG9ub3JzIEdlbmVyYWwgQ2hlbWlzdHJ5IElJICAgIChBKWRkAgIPDxYCHwAFBFdJMDhkZAIDDw8WAh8ABQMxNDNkZAIED2QWAgIBDw8WAh8ABQI5N2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4OC40JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NS43JWRkAgcPZBYCAgEPDxYCHwAFBDYuMjdkZAIID2QWBAIBDw8WAh8ABRAzLjQzOTU2MDQzOTU2MDQ0ZGQCAw8PFgIfAAUJQisgKDMuNDQpZGQCCQ9kFgQCAQ8PFgIfAAUEMy4xOGRkAgMPDxYCHwAFCEIgKDMuMTgpZGQCiBEPZBYUZg8PFgIfAAUeQmVybmlvbGxlcywgU2FuZHJpbmUgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIzMGRkAgMPDxYCHwAFBjYxMzY1N2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYxMzY1Nx8ABS1DSEVNIDZCTCAtIEludHIgSW5vcmdhbmljIENoZW0gTGFib3JhdG9yeSAoQSlkZAICDw8WAh8ABQRXSTA4ZGQCAw8PFgIfAAUDMTc5ZGQCBA9kFgICAQ8PFgIfAAUCMzhkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjEuMSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTEuOSVkZAIHD2QWAgIBDw8WAh8ABQQ5Ljg1ZGQCCA9kFgQCAQ8PFgIfAAUQMy4zNDI4NTcxNDI4NTcxNGRkAgMPDxYCHwAFCUIrICgzLjM0KWRkAgkPZBYEAgEPDxYCHwAFBTIuOTg2ZGQCAw8PFgIfAAUJQi0gKDIuOTkpZGQCiREPZBYUZg8PFgIfAAUeQmVybmlvbGxlcywgU2FuZHJpbmUgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIzMGRkAgMPDxYCHwAFBjYxMzY3MGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYxMzY3MB8ABS1DSEVNIDZCTCAtIEludHIgSW5vcmdhbmljIENoZW0gTGFib3JhdG9yeSAoQilkZAICDw8WAh8ABQRXSTA4ZGQCAw8PFgIfAAUDMjIzZGQCBA9kFgICAQ8PFgIfAAUCNjVkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjYuMSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTUuMiVkZAIHD2QWAgIBDw8WAh8ABQQ4LjI1ZGQCCA9kFgQCAQ8PFgIfAAUQMy40MjM3Mjg4MTM1NTkzMmRkAgMPDxYCHwAFCUIrICgzLjQyKWRkAgkPZBYEAgEPDxYCHwAFBTIuOTg2ZGQCAw8PFgIfAAUJQi0gKDIuOTkpZGQCihEPZBYUZg8PFgIfAAUeRGlwYXNxdWFsZSwgQW50b25pbyAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIzMGRkAgMPDxYCHwAFBjYxMzY4M2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYxMzY4Mx8ABS1DSEVNIDZDICAtIEdlbmVyYWwgQ2hlbWlzdHJ5ICBJSUkgICAgICAgICAoQSlkZAICDw8WAh8ABQRXSTA4ZGQCAw8PFgIfAAUDMjc2ZGQCBA9kFgICAQ8PFgIfAAUDMTUzZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgzLjQlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc2LjclZGQCBw9kFgICAQ8PFgIfAAUENC40NmRkAggPZBYEAgEPDxYCHwAFAzMuMmRkAgMPDxYCHwAFCEIgKDMuMjApZGQCCQ9kFgQCAQ8PFgIfAAUFMi42NDlkZAIDDw8WAh8ABQlDKyAoMi42NSlkZAKLEQ9kFhRmDw8WAh8ABR5Dendvcmtvd3NraSwgSm9obiAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjMwZGQCAw8PFgIfAAUGNjE1Mjk2ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjE1Mjk2HwAFLENIRU0gODcgLSBGcmVzaG1hbiBTZW1pbmFyICAgICAgICAgICAgICAgKEIpZGQCAg8PFgIfAAUEV0kwOGRkAgMPDxYCHwAFAThkZAIED2QWAgIBDw8WAh8ABQE2ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQwLjgzZGQCCA9kFgICAQ8PFgIfAGVkZAIJD2QWAgIBDw8WAh8AZWRkAowRD2QWFGYPDxYCHwAFHkN6d29ya293c2tpLCBKb2huICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMzBkZAIDDw8WAh8ABQY2MTM3MDdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MTM3MDcfAAUsQ0hFTSA5NiAtIEludHJvZHVjdG4gdG8gVGVhY2hpbmcgU2NpZW5jZSAoQSlkZAICDw8WAh8ABQRXSTA4ZGQCAw8PFgIfAAUCMTFkZAIED2QWAgIBDw8WAh8ABQIxMWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUEMy4wNWRkAggPZBYEAgEPDxYCHwAFATRkZAIDDw8WAh8ABQhBICg0LjAwKWRkAgkPZBYCAgEPDxYCHwBlZGQCjREPZBYUZg8PFgIfAAUeRmVuZywgRGEgRmVpICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIyMGRkAgMPDxYCHwAFBjYwMzc5N2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYwMzc5Nx8ABS9DSEVNIDEwMEEgIC0gQW5hbHl0aWNhbCBDaGVtIExhYiAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMDdkZAIDDw8WAh8ABQI4M2RkAgQPZBYCAgEPDxYCHwAFAjgxZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTUzLjIlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTY1LjglZGQCBw9kFgICAQ8PFgIfAAUFMTEuMjhkZAIID2QWBAIBDw8WAh8ABRAzLjIzMjg3NjcxMjMyODc3ZGQCAw8PFgIfAAUIQiAoMy4yMylkZAIJD2QWBAIBDw8WAh8ABQUzLjEyNWRkAgMPDxYCHwAFCEIgKDMuMTMpZGQCjhEPZBYUZg8PFgIfAAUeS2ltLCBKdWR5IEUuICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIyMGRkAgMPDxYCHwAFBjYwMzgwNGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYwMzgwNB8ABS9DSEVNIDEwNUEgIC0gUGh5c2ljYWwgQ2hlbWlzdHJ5IExhYm9yYXRvcnkgIChBKWRkAgIPDxYCHwAFBEZBMDdkZAIDDw8WAh8ABQIzNmRkAgQPZBYCAgEPDxYCHwAFAjI3ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg0LjYlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkyLjYlZGQCBw9kFgICAQ8PFgIfAAUEOS40NmRkAggPZBYEAgEPDxYCHwAFBDMuMTJkZAIDDw8WAh8ABQhCICgzLjEyKWRkAgkPZBYEAgEPDxYCHwAFBTIuODIyZGQCAw8PFgIfAAUJQi0gKDIuODIpZGQCjxEPZBYUZg8PFgIfAAUjQ3Jvd2xleSwgVGhvbWFzIEUuICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjIwZGQCAw8PFgIfAAUGNjAzODA3ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjAzODA3HwAFLUNIRU0gMTA4IC0gTW9sZWN1bGFyIEJpb2NoZW1pc3RyeSBMYWIgICAgIChBKWRkAgIPDxYCHwAFBEZBMDdkZAIDDw8WAh8ABQIzMWRkAgQPZBYCAgEPDxYCHwAFAjIzZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg3LjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkxLjMlZGQCBw9kFgICAQ8PFgIfAAUENS44OWRkAggPZBYEAgEPDxYCHwAFEDMuNTQ1NDU0NTQ1NDU0NTVkZAIDDw8WAh8ABQlCKyAoMy41NSlkZAIJD2QWBAIBDw8WAh8ABQUzLjQ5N2RkAgMPDxYCHwAFCUIrICgzLjUwKWRkApARD2QWFGYPDxYCHwAFHkRpcGFzcXVhbGUsIEFudG9uaW8gICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMjBkZAIDDw8WAh8ABQY2MDM3ODBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MDM3ODAfAAUsQ0hFTSAxMSAtIFRoZSBQZXJpb2RpYyBUYWJsZSAgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTA3ZGQCAw8PFgIfAAUDMTAyZGQCBA9kFgICAQ8PFgIfAAUCNjFkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTMuNCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTUuMSVkZAIHD2QWAgIBDw8WAh8ABQQzLjU4ZGQCCA9kFgQCAQ8PFgIfAAUQMy40MzEzNzI1NDkwMTk2MWRkAgMPDxYCHwAFCUIrICgzLjQzKWRkAgkPZBYEAgEPDxYCHwAFBTMuMzM3ZGQCAw8PFgIfAAUJQisgKDMuMzQpZGQCkREPZBYUZg8PFgIfAAUeRG9ub2dodWUsIERhbmllbCBKLiAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIyMGRkAgMPDxYCHwAFBjYwMzc4N2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYwMzc4Nx8ABSxDSEVNIDExIC0gVGhlIFBlcmlvZGljIFRhYmxlICAgICAgICAgICAgIChCKWRkAgIPDxYCHwAFBEZBMDdkZAIDDw8WAh8ABQMzMDdkZAIED2QWAgIBDw8WAh8ABQMxNjRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTYuMiVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTkuNCVkZAIHD2QWAgIBDw8WAh8ABQQzLjQ0ZGQCCA9kFgQCAQ8PFgIfAAUQMy42NDkzNTA2NDkzNTA2NWRkAgMPDxYCHwAFCUIrICgzLjY1KWRkAgkPZBYEAgEPDxYCHwAFBTMuMjc4ZGQCAw8PFgIfAAUIQiAoMy4yOClkZAKSEQ9kFhRmDw8WAh8ABSNDcm93bGV5LCBUaG9tYXMgRS4gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMjBkZAIDDw8WAh8ABQY2MDM4MDdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MDM4MDcfAAUvQ0hFTSAxMTJBICAtIE1vbGVjdWxhciBCaW9jaGVtaXN0cnkgTGFiICAgICAoQSlkZAICDw8WAh8ABQRGQTA3ZGQCAw8PFgIfAAUCMzFkZAIED2QWAgIBDw8WAh8ABQIyM2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ny4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5MS4zJWRkAgcPZBYCAgEPDxYCHwAFBDUuODlkZAIID2QWBAIBDw8WAh8ABRAzLjU0NTQ1NDU0NTQ1NDU1ZGQCAw8PFgIfAAUJQisgKDMuNTUpZGQCCQ9kFgQCAQ8PFgIfAAUFMy40OTdkZAIDDw8WAh8ABQlCKyAoMy41MClkZAKTEQ9kFhRmDw8WAh8ABR5HaG9zaCwgR291cmlzYW5rYXIgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjIwZGQCAw8PFgIfAAUGNjAzODEwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjAzODEwHwAFL0NIRU0gMTE0QSAgLSBCaW9jaGVtaWNhbCBTdHJ1Y3R1cmUmRnVuY3Rpb24gKEEpZGQCAg8PFgIfAAUERkEwN2RkAgMPDxYCHwAFAzE4NmRkAgQPZBYCAgEPDxYCHwAFAjY5ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc3LjYlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTI1LjQlZGQCBw9kFgICAQ8PFgIfAAUENi4wMGRkAggPZBYEAgEPDxYCHwAFEDMuMzA3NjkyMzA3NjkyMzFkZAIDDw8WAh8ABQlCKyAoMy4zMSlkZAIJD2QWBAIBDw8WAh8ABQUyLjY1N2RkAgMPDxYCHwAFCUMrICgyLjY2KWRkApQRD2QWFGYPDxYCHwAFHkhlbmRyaWNrc29uLCBEYXZpZCBOICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMjBkZAIDDw8WAh8ABQY2MDM4MTlkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MDM4MTkfAAUvQ0hFTSAxMjBBICAtIElub3JnYW5pYyBDaGVtaXN0cnkgSSAgICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTA3ZGQCAw8PFgIfAAUDMTgzZGQCBA9kFgICAQ8PFgIfAAUCNzJkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTEuMyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODguNiVkZAIHD2QWAgIBDw8WAh8ABQQ1LjI0ZGQCCA9kFgQCAQ8PFgIfAAUDMy43ZGQCAw8PFgIfAAUJQS0gKDMuNzApZGQCCQ9kFgQCAQ8PFgIfAAUFMy4yMzdkZAIDDw8WAh8ABQhCICgzLjI0KWRkApURD2QWFGYPDxYCHwAFHkNyb3dlbGwsIEpvaG4gRSAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMjBkZAIDDw8WAh8ABQY2MDM4MjZkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MDM4MjYfAAUtQ0hFTSAxMjYgLSBQaHlzaWNhbCBDaGVtaXN0cnkgICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUERkEwN2RkAgMPDxYCHwAFAzIwMWRkAgQPZBYCAgEPDxYCHwAFAjg5ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTY4LjYlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkxLjklZGQCBw9kFgICAQ8PFgIfAAUENi45N2RkAggPZBYEAgEPDxYCHwAFEDMuMjM0NTY3OTAxMjM0NTdkZAIDDw8WAh8ABQhCICgzLjIzKWRkAgkPZBYEAgEPDxYCHwAFBDIuNTNkZAIDDw8WAh8ABQlDKyAoMi41MylkZAKWEQ9kFhRmDw8WAh8ABR5MaW5kZW5iZXJnLCBLYXRqYSAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjIwZGQCAw8PFgIfAAUGNjAzODMzZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjAzODMzHwAFLUNIRU0gMTMxIC0gUGh5c2ljYWwgQ2hlbWlzdHJ5ICAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMDdkZAIDDw8WAh8ABQMxMjVkZAIED2QWAgIBDw8WAh8ABQI4MGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU3Ni4zJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Mi4xJWRkAgcPZBYCAgEPDxYCHwAFBDkuMTNkZAIID2QWBAIBDw8WAh8ABQ8zLjAxMjY1ODIyNzg0ODFkZAIDDw8WAh8ABQhCICgzLjAxKWRkAgkPZBYEAgEPDxYCHwAFBTIuNDg0ZGQCAw8PFgIfAAUJQysgKDIuNDgpZGQClxEPZBYUZg8PFgIfAAUeWWFuZywgSmVycnkgICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIyMGRkAgMPDxYCHwAFBjYwMzgzOGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYwMzgzOB8ABS9DSEVNIDE0MEEgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSSAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMDdkZAIDDw8WAh8ABQMzNTBkZAIED2QWAgIBDw8WAh8ABQMyNDNkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODIuMSVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTAuMSVkZAIHD2QWAgIBDw8WAh8ABQQ3LjMzZGQCCA9kFgQCAQ8PFgIfAAUQMy4yMjYwODY5NTY1MjE3NGRkAgMPDxYCHwAFCEIgKDMuMjMpZGQCCQ9kFgQCAQ8PFgIfAAUEMi42NmRkAgMPDxYCHwAFCUMrICgyLjY2KWRkApgRD2QWFGYPDxYCHwAFHlRlcm5hbnNreSwgUm9iZXJ0IEouICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMjBkZAIDDw8WAh8ABQY2MDM4NDlkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MDM4NDkfAAUvQ0hFTSAxNDBBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQilkZAICDw8WAh8ABQRGQTA3ZGQCAw8PFgIfAAUDMjQ1ZGQCBA9kFgICAQ8PFgIfAAUDMTYwZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg5LjclZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk0LjIlZGQCBw9kFgICAQ8PFgIfAAUFMTAuMjFkZAIID2QWBAIBDw8WAh8ABRAzLjA0Nzk0NTIwNTQ3OTQ1ZGQCAw8PFgIfAAUIQiAoMy4wNSlkZAIJD2QWBAIBDw8WAh8ABQUyLjY4MWRkAgMPDxYCHwAFCUMrICgyLjY4KWRkApkRD2QWFGYPDxYCHwAFHlBlcnJpbiwgQ2hhcmxlcyBMLiAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMjBkZAIDDw8WAh8ABQY2MDM4NjBkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MDM4NjAfAAUvQ0hFTSAxNDBBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQylkZAICDw8WAh8ABQRGQTA3ZGQCAw8PFgIfAAUDMzIyZGQCBA9kFgICAQ8PFgIfAAUDMjQyZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg2LjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk1LjMlZGQCBw9kFgICAQ8PFgIfAAUENy4xOWRkAggPZBYEAgEPDxYCHwAFEDMuMzMzMzMzMzMzMzMzMzNkZAIDDw8WAh8ABQlCKyAoMy4zMylkZAIJD2QWBAIBDw8WAh8ABQQyLjUxZGQCAw8PFgIfAAUJQysgKDIuNTEpZGQCmhEPZBYUZg8PFgIfAAUeSGVybWFubiwgVGhvbWFzICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIyMGRkAgMPDxYCHwAFBjYwMzg4MmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYwMzg4Mh8ABS9DSEVNIDE0MEMgIC0gT3JnYW5pYyBDaGVtaXN0cnkgSUlJICAgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMDdkZAIDDw8WAh8ABQMyNDlkZAIED2QWAgIBDw8WAh8ABQMxNzdkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODYuMyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODYuNCVkZAIHD2QWAgIBDw8WAh8ABQQ2LjI4ZGQCCA9kFgQCAQ8PFgIfAAUQMy4zMjkzNDEzMTczNjUyN2RkAgMPDxYCHwAFCUIrICgzLjMzKWRkAgkPZBYEAgEPDxYCHwAFBTIuNzU2ZGQCAw8PFgIfAAUJQi0gKDIuNzYpZGQCmxEPZBYUZg8PFgIfAAUeV2Vpem1hbiwgSGFpbSAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIyMGRkAgMPDxYCHwAFBjYwMzg5M2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYwMzg5Mx8ABS9DSEVNIDE0M0EgIC0gT3JnYW5pYyBDaGVtaXN0cnkgTGFib3JhdG9yeSAgIChBKWRkAgIPDxYCHwAFBEZBMDdkZAIDDw8WAh8ABQMzODdkZAIED2QWAgIBDw8WAh8ABQMxNzRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODQuOCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTUuOCVkZAIHD2QWAgIBDw8WAh8ABQQ2Ljg4ZGQCCA9kFgQCAQ8PFgIfAAUQMy4zNDczMDUzODkyMjE1NmRkAgMPDxYCHwAFCUIrICgzLjM1KWRkAgkPZBYEAgEPDxYCHwAFBTIuOTgzZGQCAw8PFgIfAAUJQi0gKDIuOTgpZGQCnBEPZBYUZg8PFgIfAAUeVGVybmFuc2t5LCBSb2JlcnQgSi4gICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIyMGRkAgMPDxYCHwAFBjYwMzkxN2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYwMzkxNx8ABS9DSEVNIDE0M0MgIC0gT3JnYW5pYyBDaGVtaXN0cnkgTGFib3JhdG9yeSAgIChBKWRkAgIPDxYCHwAFBEZBMDdkZAIDDw8WAh8ABQMxMDRkZAIED2QWAgIBDw8WAh8ABQI3NGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NC41JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NS45JWRkAgcPZBYCAgEPDxYCHwAFBDYuNzJkZAIID2QWBAIBDw8WAh8ABRAzLjM3MTQyODU3MTQyODU3ZGQCAw8PFgIfAAUJQisgKDMuMzcpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4zNDlkZAIDDw8WAh8ABQlCKyAoMy4zNSlkZAKdEQ9kFhRmDw8WAh8ABR5QcmF0aGVyLCBLaW1iZXJseSBBICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjIwZGQCAw8PFgIfAAUGNjA2Nzc5ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjA2Nzc5HwAFL0NIRU0gMTQ5QSAgLSBFbnZpcm9ubWVudGFsIENoZW1pc3RyeSAgICAgICAgKEEpZGQCAg8PFgIfAAUERkEwN2RkAgMPDxYCHwAFAjY3ZGQCBA9kFgICAQ8PFgIfAAUCMjhkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDQuMTRkZAIID2QWBAIBDw8WAh8ABRAzLjYwNzE0Mjg1NzE0Mjg2ZGQCAw8PFgIfAAUJQisgKDMuNjEpZGQCCQ9kFgQCAQ8PFgIfAAUFMi4yODJkZAIDDw8WAh8ABQhDICgyLjI4KWRkAp4RD2QWFGYPDxYCHwAFHlRoZW9kb3Jha2lzLCBFbW1hbm91aWwgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMjBkZAIDDw8WAh8ABQY2MDM5MjZkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MDM5MjYfAAUtQ0hFTSAxNTIgLSBTeW50aGV0aWMgTWV0aG9kcy9PcmdhbmljIENoZW0gKEEpZGQCAg8PFgIfAAUERkEwN2RkAgMPDxYCHwAFAjIxZGQCBA9kFgICAQ8PFgIfAAUCMjRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzguMyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTUuOCVkZAIHD2QWAgIBDw8WAh8ABQQzLjk4ZGQCCA9kFgQCAQ8PFgIfAAUQMy41NDE2NjY2NjY2NjY2N2RkAgMPDxYCHwAFCUIrICgzLjU0KWRkAgkPZBYEAgEPDxYCHwAFBDMuMjlkZAIDDw8WAh8ABQhCICgzLjI5KWRkAp8RD2QWFGYPDxYCHwAFHlRvciwgWWl0emhhayAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMjBkZAIDDw8WAh8ABQY2MDM5MjdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MDM5MjcfAAUtQ0hFTSAxNTQgLSBNZWNoYW5pc21zL09yZ2FuaWMgUmVhY3Rpb25zICAgKEEpZGQCAg8PFgIfAAUERkEwN2RkAgMPDxYCHwAFAjM0ZGQCBA9kFgICAQ8PFgIfAAUCNDlkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTUuOCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUENS44MWRkAggPZBYEAgEPDxYCHwAFEDMuMzE5MTQ4OTM2MTcwMjFkZAIDDw8WAh8ABQlCKyAoMy4zMilkZAIJD2QWBAIBDw8WAh8ABQMzLjZkZAIDDw8WAh8ABQlCKyAoMy42MClkZAKgEQ9kFhRmDw8WAh8ABR5QcmF0aGVyLCBLaW1iZXJseSBBICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjIwZGQCAw8PFgIfAAUGNjA2Nzc5ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjA2Nzc5HwAFLUNIRU0gMTcxIC0gRW52aXJvbm1lbnRhbCBDaGVtaXN0cnkgICAgICAgIChBKWRkAgIPDxYCHwAFBEZBMDdkZAIDDw8WAh8ABQI2N2RkAgQPZBYCAgEPDxYCHwAFAjI4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQQ0LjE0ZGQCCA9kFgQCAQ8PFgIfAAUQMy42MDcxNDI4NTcxNDI4NmRkAgMPDxYCHwAFCUIrICgzLjYxKWRkAgkPZBYEAgEPDxYCHwAFBTIuMjgyZGQCAw8PFgIfAAUIQyAoMi4yOClkZAKhEQ9kFhRmDw8WAh8ABR5EaWNrc29uLCBBbmRyZXcgR2lsbW9yZSAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjIwZGQCAw8PFgIfAAUGNjA1MjI4ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjA1MjI4HwAFLUNIRU0gMTc0IC0gQ2hlbSBQcmluIG9mIE1hcmluZSBTeXN0ZW1zICAgIChBKWRkAgIPDxYCHwAFBEZBMDdkZAIDDw8WAh8ABQIxOWRkAgQPZBYCAgEPDxYCHwAFAjExZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgxLjglZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDMuNDFkZAIID2QWBAIBDw8WAh8ABQMzLjNkZAIDDw8WAh8ABQlCKyAoMy4zMClkZAIJD2QWAgIBDw8WAh8AZWRkAqIRD2QWFGYPDxYCHwAFHlNhaWxvciwgTWljaGFlbCBKb3NlcGggICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMjBkZAIDDw8WAh8ABQY2MDY0NTdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MDY0NTcfAAUtQ0hFTSAxOTIgLSBTciBTZW1pbmFyIGluIENoZW0gJiBCaW9jaGVtICAgKEEpZGQCAg8PFgIfAAUERkEwN2RkAgMPDxYCHwAFAjE2ZGQCBA9kFgICAQ8PFgIfAAUCMTJkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBDEuMTdkZAIID2QWAgIBDw8WAh8AZWRkAgkPZBYCAgEPDxYCHwBlZGQCoxEPZBYUZg8PFgIfAAUeV2Vpem1hbiwgSGFpbSAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIyMGRkAgMPDxYCHwAFBjYwNzE4N2RkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYwNzE4Nx8ABS1DSEVNIDE5MiAtIFNyIFNlbWluYXIgaW4gQ2hlbSAmIEJpb2NoZW0gICAoQilkZAICDw8WAh8ABQRGQTA3ZGQCAw8PFgIfAAUCMTZkZAIED2QWAgIBDw8WAh8ABQIxM2RkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUEMC41MGRkAggPZBYCAgEPDxYCHwBlZGQCCQ9kFgICAQ8PFgIfAGVkZAKkEQ9kFhRmDw8WAh8ABR5Ib2VnZXIsIENhcmwgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjIwZGQCAw8PFgIfAAUGNjAzNjU0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjAzNjU0HwAFK0NIRU0gNCAtIEJhc2ljIENoZW1pc3RyeSAgICAgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTA3ZGQCAw8PFgIfAAUDMjQzZGQCBA9kFgICAQ8PFgIfAAUDMTUyZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk0LjAlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk2LjAlZGQCBw9kFgICAQ8PFgIfAAUENS4xMmRkAggPZBYEAgEPDxYCHwAFDzMuMDk1MjM4MDk1MjM4MWRkAgMPDxYCHwAFCEIgKDMuMTApZGQCCQ9kFgQCAQ8PFgIfAAUFMy4wNTZkZAIDDw8WAh8ABQhCICgzLjA2KWRkAqURD2QWFGYPDxYCHwAFHlBvbWVyb3ksIFJvYmVydCBTLiAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMjBkZAIDDw8WAh8ABQY2MDM2NjZkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MDM2NjYfAAUtQ0hFTSA2QSAgLSBHZW5lcmFsIENoZW1pc3RyeSBJICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUERkEwN2RkAgMPDxYCHwAFAzMzMGRkAgQPZBYCAgEPDxYCHwAFAzE3MGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4My4zJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4My4wJWRkAgcPZBYCAgEPDxYCHwAFBDYuMTdkZAIID2QWBAIBDw8WAh8ABRAyLjgwMzU3MTQyODU3MTQzZGQCAw8PFgIfAAUJQi0gKDIuODApZGQCCQ9kFgQCAQ8PFgIfAAUFMi4zNjZkZAIDDw8WAh8ABQlDKyAoMi4zNylkZAKmEQ9kFhRmDw8WAh8ABR5Dendvcmtvd3NraSwgSm9obiAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjIwZGQCAw8PFgIfAAUGNjAzNjc2ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjAzNjc2HwAFLUNIRU0gNkEgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSSAgICAgICAgICAgIChCKWRkAgIPDxYCHwAFBEZBMDdkZAIDDw8WAh8ABQMzNDZkZAIED2QWAgIBDw8WAh8ABQMyMTRkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODIuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNjAuOCVkZAIHD2QWAgIBDw8WAh8ABQQ2LjIwZGQCCA9kFgQCAQ8PFgIfAAUQMy4xNDQyMzA3NjkyMzA3N2RkAgMPDxYCHwAFCEIgKDMuMTQpZGQCCQ9kFgQCAQ8PFgIfAAUFMi41NzhkZAIDDw8WAh8ABQlDKyAoMi41OClkZAKnEQ9kFhRmDw8WAh8ABR5Dendvcmtvd3NraSwgSm9obiAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjIwZGQCAw8PFgIfAAUGNjAzNjg2ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjAzNjg2HwAFLUNIRU0gNkEgIC0gR2VuZXJhbCBDaGVtaXN0cnkgSSAgICAgICAgICAgIChDKWRkAgIPDxYCHwAFBEZBMDdkZAIDDw8WAh8ABQMzMzRkZAIED2QWAgIBDw8WAh8ABQMxMTFkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNzMuMyVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNTcuMCVkZAIHD2QWAgIBDw8WAh8ABQQ2Ljc3ZGQCCA9kFgQCAQ8PFgIfAAUQMi45MzMzMzMzMzMzMzMzM2RkAgMPDxYCHwAFCUItICgyLjkzKWRkAgkPZBYEAgEPDxYCHwAFBTIuNTc4ZGQCAw8PFgIfAAUJQysgKDIuNTgpZGQCqBEPZBYUZg8PFgIfAAUeSm9obnNvbiwgQ2hyaXN0aW5hIEEgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIyMGRkAgMPDxYCHwAFBjYwMzY5NmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYwMzY5Nh8ABS1DSEVNIDZBICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoRClkZAICDw8WAh8ABQRGQTA3ZGQCAw8PFgIfAAUDMzUyZGQCBA9kFgICAQ8PFgIfAAUDMjQ4ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk0LjYlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk5LjYlZGQCBw9kFgICAQ8PFgIfAAUENi40OWRkAggPZBYEAgEPDxYCHwAFEDMuMzAyOTA0NTY0MzE1MzVkZAIDDw8WAh8ABQlCKyAoMy4zMClkZAIJD2QWBAIBDw8WAh8ABQUzLjAwNGRkAgMPDxYCHwAFCEIgKDMuMDApZGQCqREPZBYUZg8PFgIfAAUeUG9tZXJveSwgUm9iZXJ0IFMuICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIyMGRkAgMPDxYCHwAFBjYwMzcwNmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYwMzcwNh8ABS1DSEVNIDZBICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoRSlkZAICDw8WAh8ABQRGQTA3ZGQCAw8PFgIfAAUDMjc4ZGQCBA9kFgICAQ8PFgIfAAUDMjU3ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg3LjQlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTc4LjYlZGQCBw9kFgICAQ8PFgIfAAUENi4xOGRkAggPZBYEAgEPDxYCHwAFEDIuODQyMTA1MjYzMTU3ODlkZAIDDw8WAh8ABQlCLSAoMi44NClkZAIJD2QWBAIBDw8WAh8ABQUyLjM2NmRkAgMPDxYCHwAFCUMrICgyLjM3KWRkAqoRD2QWFGYPDxYCHwAFHkhvZWdlciwgQ2FybCAgICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMjBkZAIDDw8WAh8ABQY2MDM3MTZkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MDM3MTYfAAUtQ0hFTSA2QUggLSBIb25vcnMgR2VuZXJhbCBDaGVtaXN0cnkgSSAgICAgKEEpZGQCAg8PFgIfAAUERkEwN2RkAgMPDxYCHwAFAzE0N2RkAgQPZBYCAgEPDxYCHwAFAjk2ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTg0LjIlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk3LjklZGQCBw9kFgICAQ8PFgIfAAUENi4xNGRkAggPZBYEAgEPDxYCHwAFEDMuMzU0ODM4NzA5Njc3NDJkZAIDDw8WAh8ABQlCKyAoMy4zNSlkZAIJD2QWBAIBDw8WAh8ABQUzLjE2MmRkAgMPDxYCHwAFCEIgKDMuMTYpZGQCqxEPZBYUZg8PFgIfAAUeRGlwYXNxdWFsZSwgQW50b25pbyAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIyMGRkAgMPDxYCHwAFBjYwMzcyMmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYwMzcyMh8ABS1DSEVNIDZCICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IElJICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTA3ZGQCAw8PFgIfAAUDMzE0ZGQCBA9kFgICAQ8PFgIfAAUDMjE0ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkxLjUlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTgyLjUlZGQCBw9kFgICAQ8PFgIfAAUENS4wNWRkAggPZBYEAgEPDxYCHwAFEDMuMjYzNDE0NjM0MTQ2MzRkZAIDDw8WAh8ABQhCICgzLjI2KWRkAgkPZBYEAgEPDxYCHwAFBTIuNTQyZGQCAw8PFgIfAAUJQysgKDIuNTQpZGQCrBEPZBYUZg8PFgIfAAUeQmVybmlvbGxlcywgU2FuZHJpbmUgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIyMGRkAgMPDxYCHwAFBjYwMzczMmRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYwMzczMh8ABS1DSEVNIDZCTCAtIEludHIgSW5vcmdhbmljIENoZW0gTGFib3JhdG9yeSAoQSlkZAICDw8WAh8ABQRGQTA3ZGQCAw8PFgIfAAUDMjU5ZGQCBA9kFgICAQ8PFgIfAAUCMjhkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNTUuNiVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFOTYuMyVkZAIHD2QWAgIBDw8WAh8ABQQ4LjQzZGQCCA9kFgQCAQ8PFgIfAAUEMy4xMmRkAgMPDxYCHwAFCEIgKDMuMTIpZGQCCQ9kFgQCAQ8PFgIfAAUFMy4wMzRkZAIDDw8WAh8ABQhCICgzLjAzKWRkAq0RD2QWFGYPDxYCHwAFHkJlcm5pb2xsZXMsIFNhbmRyaW5lICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMjBkZAIDDw8WAh8ABQY2MDM3NDdkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MDM3NDcfAAUtQ0hFTSA2QkwgLSBJbnRyIElub3JnYW5pYyBDaGVtIExhYm9yYXRvcnkgKEIpZGQCAg8PFgIfAAUERkEwN2RkAgMPDxYCHwAFAzIyMWRkAgQPZBYCAgEPDxYCHwAFAjM5ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTU4LjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkxLjclZGQCBw9kFgICAQ8PFgIfAAUEOS45MmRkAggPZBYEAgEPDxYCHwAFEDMuMzMzMzMzMzMzMzMzMzNkZAIDDw8WAh8ABQlCKyAoMy4zMylkZAIJD2QWBAIBDw8WAh8ABQUzLjAzNGRkAgMPDxYCHwAFCEIgKDMuMDMpZGQCrhEPZBYUZg8PFgIfAAUeSm9obnNvbiwgQ2hyaXN0aW5hIEEgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIyMGRkAgMPDxYCHwAFBjYwMzc2MGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTYwMzc2MB8ABS1DSEVNIDZDICAtIEdlbmVyYWwgQ2hlbWlzdHJ5ICBJSUkgICAgICAgICAoQSlkZAICDw8WAh8ABQRGQTA3ZGQCAw8PFgIfAAUDMjgxZGQCBA9kFgICAQ8PFgIfAAUDMTcyZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTkxLjQlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTk2LjklZGQCBw9kFgICAQ8PFgIfAAUENS41NmRkAggPZBYEAgEPDxYCHwAFEDMuMjg0MDIzNjY4NjM5MDVkZAIDDw8WAh8ABQhCICgzLjI4KWRkAgkPZBYEAgEPDxYCHwAFBTMuMDAxZGQCAw8PFgIfAAUIQiAoMy4wMClkZAKvEQ9kFhRmDw8WAh8ABR5XaW5uLCBEYXJieSBMZWUgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjIwZGQCAw8PFgIfAAUGNjAzNzcwZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NjAzNzcwHwAFLUNIRU0gNkMgIC0gR2VuZXJhbCBDaGVtaXN0cnkgIElJSSAgICAgICAgIChCKWRkAgIPDxYCHwAFBEZBMDdkZAIDDw8WAh8ABQMxOTdkZAIED2QWAgIBDw8WAh8ABQMxMTBkZAIFD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFODkuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUFNTcuMyVkZAIHD2QWAgIBDw8WAh8ABQQ1Ljc3ZGQCCA9kFgQCAQ8PFgIfAAUPMy4yMDM3MDM3MDM3MDM3ZGQCAw8PFgIfAAUIQiAoMy4yMClkZAIJD2QWBAIBDw8WAh8ABQUyLjcwNmRkAgMPDxYCHwAFCUItICgyLjcxKWRkArARD2QWFGYPDxYCHwAFHkN6d29ya293c2tpLCBKb2huICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMjBkZAIDDw8WAh8ABQY2MDg2NDNkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD02MDg2NDMfAAUsQ0hFTSA4NyAtIEZyZXNobWFuIFNlbWluYXIgICAgICAgICAgICAgICAoQylkZAICDw8WAh8ABQRGQTA3ZGQCAw8PFgIfAAUCMTFkZAIED2QWAgIBDw8WAh8ABQIxMGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUEMC43MGRkAggPZBYEAgEPDxYCHwAFATRkZAIDDw8WAh8ABQhBICg0LjAwKWRkAgkPZBYCAgEPDxYCHwBlZGQCsREPZBYUZg8PFgIfAAUeQmFsbCwgSWFuIEphbWVzICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIxMGRkAgMPDxYCHwAFBjU5NDg3MGRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTU5NDg3MB8ABS9DSEVNIDEwMEEgIC0gQW5hbHl0aWNhbCBDaGVtIExhYiAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNVMDdkZAIDDw8WAh8ABQIxN2RkAgQPZBYCAgEPDxYCHwAFAjE3ZGQCBQ9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBTUzLjMlZGQCBg9kFgYCAQ8PFgIfAGVkZAIDDw8WAh8AZWRkAgUPDxYCHwAFBjEwMC4wJWRkAgcPZBYCAgEPDxYCHwAFBTE2LjE1ZGQCCA9kFgQCAQ8PFgIfAAUDMy41ZGQCAw8PFgIfAAUJQisgKDMuNTApZGQCCQ9kFgICAQ8PFgIfAGVkZAKyEQ9kFhRmDw8WAh8ABR5UZXJuYW5za3ksIFJvYmVydCBKLiAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjEwZGQCAw8PFgIfAAUGNTk0ODcyZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NTk0ODcyHwAFL0NIRU0gMTQwQSAgLSBPcmdhbmljIENoZW1pc3RyeSBJICAgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1UwN2RkAgMPDxYCHwAFAzE0MGRkAgQPZBYCAgEPDxYCHwAFAzEwOGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4OC43JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NC4zJWRkAgcPZBYCAgEPDxYCHwAFBTExLjk5ZGQCCA9kFgQCAQ8PFgIfAAUQMy4wODMzMzMzMzMzMzMzM2RkAgMPDxYCHwAFCEIgKDMuMDgpZGQCCQ9kFgICAQ8PFgIfAGVkZAKzEQ9kFhRmDw8WAh8ABR5OZWZ6aSwgQWRlbCAgICAgICAgICAgICAgICAgICBkZAIBD2QWBgIBDw8WAh8ABQQ0MjEwZGQCAw8PFgIfAAUGNTk0ODc0ZGQCBQ8PFgQfBQUtLi4vc2NyaXB0cy9kZXRhaWxlZFN0YXRzLmFzcD9TZWN0aW9uSWQ9NTk0ODc0HwAFL0NIRU0gMTQwQyAgLSBPcmdhbmljIENoZW1pc3RyeSBJSUkgICAgICAgICAgKEEpZGQCAg8PFgIfAAUEU1UwN2RkAgMPDxYCHwAFAzE2MmRkAgQPZBYCAgEPDxYCHwAFAzEwNWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4Ni4xJWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5NC4xJWRkAgcPZBYCAgEPDxYCHwAFBDguMjFkZAIID2QWBAIBDw8WAh8ABRAzLjE5NjA3ODQzMTM3MjU1ZGQCAw8PFgIfAAUIQiAoMy4yMClkZAIJD2QWAgIBDw8WAh8AZWRkArQRD2QWFGYPDxYCHwAFHldlaXptYW4sIEhhaW0gICAgICAgICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMTBkZAIDDw8WAh8ABQY1OTQ4NzZkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD01OTQ4NzYfAAUvQ0hFTSAxNDNBICAtIE9yZ2FuaWMgQ2hlbWlzdHJ5IExhYm9yYXRvcnkgICAoQSlkZAICDw8WAh8ABQRTVTA3ZGQCAw8PFgIfAAUCNzZkZAIED2QWAgIBDw8WAh8ABQI0OWRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4OS40JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIHD2QWAgIBDw8WAh8ABQUxMS4wMWRkAggPZBYEAgEPDxYCHwAFEDMuMzc3Nzc3Nzc3Nzc3NzhkZAIDDw8WAh8ABQlCKyAoMy4zOClkZAIJD2QWAgIBDw8WAh8AZWRkArURD2QWFGYPDxYCHwAFHlRlcm5hbnNreSwgUm9iZXJ0IEouICAgICAgICAgIGRkAgEPZBYGAgEPDxYCHwAFBDQyMTBkZAIDDw8WAh8ABQY1OTQ4NjhkZAIFDw8WBB8FBS0uLi9zY3JpcHRzL2RldGFpbGVkU3RhdHMuYXNwP1NlY3Rpb25JZD01OTQ4NjgfAAUrQ0hFTSA0IC0gQmFzaWMgQ2hlbWlzdHJ5ICAgICAgICAgICAgICAgIChBKWRkAgIPDxYCHwAFBFNVMDdkZAIDDw8WAh8ABQE2ZGQCBA9kFgICAQ8PFgIfAAUBNmRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQYxMDAuMCVkZAIGD2QWBgIBDw8WAh8AZWRkAgMPDxYCHwBlZGQCBQ8PFgIfAAUGMTAwLjAlZGQCBw9kFgICAQ8PFgIfAAUENS41MGRkAggPZBYEAgEPDxYCHwAFAzIuOGRkAgMPDxYCHwAFCUItICgyLjgwKWRkAgkPZBYCAgEPDxYCHwBlZGQCthEPZBYUZg8PFgIfAAUeSG9lZ2VyLCBDYXJsICAgICAgICAgICAgICAgICAgZGQCAQ9kFgYCAQ8PFgIfAAUENDIxMGRkAgMPDxYCHwAFBjU5NDg4MWRkAgUPDxYEHwUFLS4uL3NjcmlwdHMvZGV0YWlsZWRTdGF0cy5hc3A/U2VjdGlvbklkPTU5NDg4MR8ABS1DSEVNIDZBICAtIEdlbmVyYWwgQ2hlbWlzdHJ5IEkgICAgICAgICAgICAoQSlkZAICDw8WAh8ABQRTVTA3ZGQCAw8PFgIfAAUCNjZkZAIED2QWAgIBDw8WAh8ABQIzNGRkAgUPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU4MS44JWRkAgYPZBYGAgEPDxYCHwBlZGQCAw8PFgIfAGVkZAIFDw8WAh8ABQU5My45JWRkAgcPZBYCAgEPDxYCHwAFBDkuMzFkZAIID2QWBAIBDw8WAh8ABQczLjQwNjI1ZGQCAw8PFgIfAAUJQisgKDMuNDEpZGQCCQ9kFgICAQ8PFgIfAGVkZAK3EQ9kFhRmDw8WAh8ABR5EaXBhc3F1YWxlLCBBbnRvbml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